JP2004538680A - Control system and user interface for network consisting of multiple input devices - Google Patents

Abstract

Apparatus for centrally controlling the operation of various devices in a network system (NS) using various protocols in a centralized manner, and in particular, control for centrally controlling these devices in a manner that appears seamless and transparent to the user System (CS) and Unified UI.
An NS command center or hub includes a context and connection permutation dependent CS that enables seamless centralized control of all types of input devices. The CS preferably includes a multi-purpose icon based GUI that provides a centralized on-screen central control system for the NS. A UI that includes a visual recognition system allows a user to transparently control multiple input devices with various protocols while operating from a single control layer of the input command device. In another embodiment, CS also allows gated signal passing control while avoiding signal interference.

Description

【Technical field】
[0001]
The present invention relates to the field of consumer electronic systems, and in particular, to an apparatus, method and system for centrally controlling the operation of devices in a network of consumer electronic systems.
[Background Art]
[0002]
The United States and other countries are rapidly moving to digital television (DTV) to take advantage of high definition TV broadcasts. In particular, the United States is gradually moving away from analog television systems and will eventually abolish it. At present, the US government is calling for the end of analog TV broadcasting by 2006. The use of analog TV requires the addition of a set-top box downconverter that converts digital broadcasts to a lower quality analog format designed to be received by analog TV.
[0003]
The transition to DTV involves the integration of IEEE 1394 digital home network technology. IEEE 1394 allows digital devices of DTV and other consumer electronic systems incorporating IEEE 1394 to connect and communicate via a single cable (FireWire®), which is a digital cable. Transmits video, digital audio, and system control data. A home network system that includes such an integrated device eliminates the myriad cables and connectors and separate remote controls currently needed to interconnect and control the electronic devices of a home theater system. With IEEE 1394 technology, a DTV or some other main video display unit (PDCU) can be designed as a command center for a digital home network system.
[0004]
However, IEEE 1394 itself controls IR signal controlled analog audio / video (AV) devices (IRC devices), such as analog VCRs, DVD players, cable and satellite television boxes, and AV receivers, which are conventionally wired. Because it does not provide a method, it does not help eliminate the myriad of cables, connectors, and remote controls required to connect and control a combined analog and digital home theater network system. The interconnection and control of such systems is extremely complex and cumbersome. For example, a mere switch from cable broadcasting to playing a movie on a DVD player may involve a number of device-specific remote controls and several repetitions over different control layers of the remote controls. Such work involves the user switching the video input of the TV, switching the layer of the TV remote, turning on and playing the DVD player, and then, if the user has an AV receiver (AVR), To stop the audio output from the TV and switch to the AVR remote control to turn on the AVR and output audio from the AVR, or, if the AVR is the current audio output device, use the AVR remote control to input the AVR May need to be switched to output the audio of the DVD player from the AVR. Performing such operations is often frustrating, especially when it is not possible for the user to immediately watch the movie being played on the DVD player.
DISCLOSURE OF THE INVENTION
[Problems to be solved by the invention]
[0005]
Thus, various electronic devices can be seamlessly controlled centrally by a variety of protocols from a single input device, providing an easy-to-use user interface (UI) in which the complexity of control of such devices is transparent to the user. Hopefully you can.
[Means for Solving the Problems]
[0006]
Accordingly, the present invention is a novel apparatus, method and system for centrally controlling the operation of various devices in a network system by various protocols in a centralized manner, and in particular these devices appear seamless and transparent to the user. It includes a control system that centrally controls in a manner and a unified user interface. For example, in an entertainment system or home theater network system (HTNS) that includes a combination of analog IR control (IRC) devices and digital 1394 audio-video (AV) devices, the control and operation of IRC versions and 1394 formats of AV devices is not an option. Looks the same to the user.
[0007]
In a preferred embodiment, the HTNS according to the invention comprises a main display and control unit (PDCU), and a combination of IRC and 1394 AV devices with other inputs. A PDCU may include an AV system with circuits and programmable logic suitable for operation of a control system according to the present invention, for example, a television, preferably a digital television (DTV). Alternatively, the PDCU may be housed in a main display unit, such as a TV or "dumb" monitor or display, and in a separate chassis from the main display unit and suitable for operation of the control system according to the present invention. A dedicated controller or computer with programmable logic. Preferably, the PDCU comprises a number of I / O ports that can couple external or peripheral devices, such as IRC and 1394 AV devices.
[0008]
Many possible configurations are possible for the HTNS according to the invention. For example, the HTNS may comprise a number of IRC and 1394 devices and other system inputs interconnected to one another and to the PDCU in various ways. Preferably, the PDCU integrates IEEE 1394 and EIA-775 technologies as well as Home Audio Video Interoperability (HAVi) networking software technology and AV / C that complement IEEE 1394 technology. The 1394 device is preferably connected in series and / or parallel to the PDCU with a 1394 cable, while the IRC device is connected in parallel with the PDCU with a conventional AV cable and controlled by an IR blaster cable. IR blaster cables allow messages or commands containing device specific IR codes to be conveyed to the IRC device.
[0009]
In one innovative aspect of the present invention, the PDCU is a seamless centralization of both 1394 and IRC type devices, as well as internal TV type inputs and other input devices and system hardware interconnected to the PDCU. Includes context sensitive control systems that allow control. The PDCU is therefore a command center for HTNS or other network systems (which may include entertainment AV type devices as well as home appliances and home lighting, heating, air conditioning, security type systems, etc.). That is, a hub. The control system interprets an input command such as an event signal from the system remote controller, and determines what action needs to be taken (for example, navigate a menu on the screen of the PDCU or operate a connected AV device). And a control module that can determine which devices are connected and how, and then prepare and send appropriate messages or commands to the input devices. Preferably, for supported IRC devices, the control module includes a library of IR codes and translates input commands, such as digital input commands, into messages containing IR codes appropriate for the device from the IR code library; A command message to the IRC device (blast) to drive the IRC device. The control system of the present invention can also learn and / or update IR codes of various IRC devices. However, it is advantageous that all such operations are transparent to the consumer or user.
[0010]
In another innovative aspect of the invention, the control system includes a multi-purpose icon based graphical user interface (UI) to provide a unified on-screen central control system for the network system. This UI allows a user to operate on a single control layer of a system remote control, such as the TV layer of a universal TV remote control, while using a variety of protocols to provide multiple input devices, such as internal TV type devices, AV devices, and others. Input device can be controlled transparently. For example, the operation of an IRC DVD player and a 1394 DVD player look the same to the user. This UI also advantageously provides on-screen real-time visual recognition of system status, device availability, operation or connection options, active connections, navigation, and the like.
[0011]
In operation, when the user selects the "device" button on the remote control, the control system displays a device selection menu on the screen of the PDCU. The device selection menu preferably includes a device window, a video window, an audio window, and a connection window if recording or other peer-to-peer connection is active. The user then navigates within the device selection window and highlights a device icon, for example, a VCR icon, to play the video on the VCR. The user may move or jump to the audio selection window, highlight the AV receiver (AVR) icon and output audio from the AVR. By selecting VCR and AVR from the device selection menu by pressing "ENTER" or any other appropriate key on the system remote control with the corresponding icon highlighted (selected), the control system will have all necessary Switching is performed, all necessary connections are made, and a transport menu is displayed on the screen of the PDCU. This transport menu is a device control menu and preferably includes appropriate control function buttons such as "play", "fast forward", "rewind" and the like. Alternatively, device-specific, ie, device-supplied, control menus can be displayed and operated by the control system of the present invention. Finally, the user selects the "Play" button in the transport menu by pressing the "ENTER" or "Play" button on the system remote controller to play the moving image. The steps performed by the user are the same whether the device is an IRC device or a 1394 device. As described above, the control system interprets and follows the user's choices in a manner transparent to the user, performs all necessary switching, and makes all necessary connections.
[0012]
A further innovative aspect of the invention involves the connection permutation sensitivity of the control system. In particular, once a device such as a VCR is selected, the control system automatically controls the VCR and the remaining HTNS devices based on the stored device and device connection configuration data. As an example, if a VCR is connected to both an AVR and a PDCU and the audio of the VCR is output from the AVR while the video is being output from the PDCU, when the VCR and AVR are selected, the control system In the case of, the audio output from the PDCU is automatically turned off and the AVR is turned on to output the audio of the VCR, or if the AVR is the current audio output or the sink device, the input in the AVR is changed. Switch. Thus, the control system handles all necessary switching transparently to the user. This context-sensitive and context-sensitive method tends to outperform certain remote control "macro" command functions. This is because the control sequence of the control system does not depend on the specific state of the network device at the start of the sequence. Moreover, aspects of this control system allow for seamless peer-to-peer communication and operation, eg, recording between devices, even when the PDCU is not physically connected.
[0013]
In yet another innovative aspect of the present invention, the control system includes a configuration subsystem. This subsystem provides the ability to configure network system configurations or device interconnections in a first time out of the box configuration mode, or an existing configuration in edit mode. Provide the user with a function to change / modify / delete. In the initialization mode, the user is presented with a preset configuration of the IRC device input connection on the PDCU and is instructed to connect the IRC device to the PDCU accordingly. The user then logs in to each IRC device in the network system, and the control system creates a device list and device connection database. If the network system includes IRC devices interconnected to the PDCU via other input connections, the user may enter the edit mode of the subsystem to customize the input connections of such devices, as well as individual devices. Alternatively, the entire system configuration data can be deleted. Navigation in the configuration subsystem is by text or screen. Navigation in the alternative configuration subsystem may be by voice recognition, or the configuration subsystem may be graphical.
[0014]
In yet another innovative aspect, the control system preferably enables IR signal pass-through control of unsupported IRC devices in the network system while avoiding IR signal jamming. Avoidance of IR signal jamming is achieved by appropriate signal gapping control or gated control systems. Preferably, the gated passage control system includes a gating mechanism that controls passage of IR signals to unsupported IRC devices. The operation of the gate is controlled by an IRC device controller adapted to translate the remote control commands into a message containing an IR code appropriate for the device of the supported IRC device. Thus, the IRC controller preferably keeps the gate closed while sending device-specific IR code messages to supported devices. Upon completion of such a transmission, the IRC controller changes the gate to an open state, allowing the IR signal to freely pass to unsupported devices.
[0015]
Other aspects and features of the present invention will become apparent from the following description taken in conjunction with the accompanying drawings.
BEST MODE FOR CARRYING OUT THE INVENTION
[0016]
With reference to the figures in detail, a novel apparatus, method and system for centrally controlling the operation of various devices by various protocols in a network system in a centralized manner will be described. In particular, a control system and user interface that provide a unified, seamless and transparent central control of a network of devices according to various protocols is described. Those skilled in the art will appreciate that there are many possible configurations of the network system according to the present invention. For example, network systems include communication devices, consumer electronic systems, audio / video (A / V) devices, high and low speed devices, analog and digital devices, global and local control devices, and AV and non-AV devices. Combinations may be included, and may include both analog IR control and digital 1394AV, as well as other input type devices. By way of example only, the devices, systems, and methods according to the present invention will be described primarily in the context of a home theater network system (HTNS).
[0017]
In a preferred embodiment, the HTNS according to the present invention comprises a main display and control unit (PDCU) functioning as an HTNS hub or command center, and a combination of IR controlled (analog) and 1394 (digital) AV devices, as well as others. Includes input. AV devices and other inputs may be interconnected to each other and to the PDCU in various ways. The PDCU preferably includes a centralized control system with a graphical user interface (UI) to connect between the HTNS components and control their operation. This control system provides the user with all central control of the supported devices in the HTNS, and in an alternative embodiment allows passage control of unsupported devices while avoiding signal jamming.
[0018]
Preferably, the PDCU includes an AV system, such as a television, and more preferably, a digital television (DTV) having circuitry and programmable logic suitable for operation of the control system according to the present invention. Alternatively, the PDCU is housed in a TV or main display unit, such as a "dumb" monitor or display, and a dedicated controller with programmable logic housed in a separate chassis from the main display unit and suitable for operation of the control system according to the present invention. Or it may include a computer. However, for purposes of illustration only, the invention is described below primarily with reference to DTVs.
[0019]
Preferably, the control system of the present invention integrates IEEE 1394 and EIA-775 technologies, as well as home audio and video interoperability (HAVi) networking software technology and AV / C that complement IEEE 1394 technology. The control system also incorporates a bi-directional 1394 bus interface according to IEEE 1394-1995 and IEC 61883-1, and in accordance with IEC 61883-4, MPEG-2 video at other HD and SD resolutions as described in IEC 61883-2,3,4. And digital audio as described in IEC 61883-6, all of which specifications are hereby incorporated by reference. The control system also includes a 1394 bus cycle master defined in IEEE 1394-1995 8.3.1.4, a bus manager defined in IEEE 1394-1995 8.3.1.6, and an IEEE 1394-1995 8.3.1. .5 functions as an isochronous resource manager, provides a higher level 1394 interface to open cables and other AV / C devices as defined in EIA-775A, and conforms to profile B of 775A subscriber devices. And all of these specifications are incorporated herein by reference. The control system may be configured to operate as such, but preferably does not respond to any type of 1394 command of any protocol from other 1394 devices, and the Havi display function module (Display Functional Module). The Config ROM and SDD of the control system preferably tell other bus members that they do not support their subunit criteria. Further, the PDCU is preferably a complete A / V device (FAV) as described in the Havi 1.0 specification, which specification is incorporated herein by reference.
[0020]
Referring to FIG. 1, there is shown an exemplary embodiment of an overall HTNS 10 according to the present invention, including one of many possible device connection configurations. As the hub of the HTNS 10, the DTV 12 of the present invention includes a control system that provides seamless centralized control of the supported HTNS 10, with the features described above and described in more detail below. Like a conventional TV, the DTV 12 has a main screen 13 and a sub screen 14 (for example, PIP, POP, etc.), a video screen 11 including an audio output 15, and a control panel 16, and many I / Os to which input devices can be connected. It is preferable that the remote control device 20 includes an O port and is remotely controlled by an IR signal transmitted from the remote control device 20. Alternatively, the DTV 12 may be remotely controlled by wireless RF transmission, voice commands by a voice recognition system, dial-up modem connection, Internet connection, USB connection using a keyboard or mouse, and the like.
[0021]
In accordance with the present invention, as shown, the HTNS 10 includes a DTV 12 and a plurality of interconnected IR control (IRC) devices 30, 1394 devices 40 including AV and other 1394 devices, and PC 22, antenna 17, etc. Other inputs. Preferably, the 1394 device 40 is connected in series and / or in parallel to the DTV 12 via a 1394 cable 49, and the IRC device 30 is connected in parallel to the DTV 12 via a conventional AV cable 31 for IR transmission (blaster ) Controlled in parallel via cable 38. IR blaster cable 38 allows messages or commands containing device specific IR codes to be communicated to IRC device 30. The DTV 12 includes a library of device-specific IR codes for supported devices and a control system that can translate input commands (digital or analog) from the remote control 20 into messages suitable for the device, including device-specific IR codes. This message is then communicated to the IRC device 30 to control and operate or drive the IRC device 30.
[0022]
As shown, the IRC input device 30 includes a cable box (television) 18, a digital satellite broadcasting (DBS) tuner 32, a video cassette recorder (VCR) 33, Devices such as a video disc player (DVD) 34 and the like may be included so that audio and video output from these devices, or optionally only video output, may be input to the DTV 12. The IRC input device may also include a device such as an IRC AV receiver (AVR) 37, and the audio output from the DTV 12 is sent to the AVR 37 via the AV cable 31. The AVR 37 can output video to the DTV 12, but is preferably configured not to output video to the DTV 12. The inclusion of AVR 37 in HTNS 10 allows other IRC AV devices 35, 36, such as DBS 32, VCR 33, and DVD 34, or a second VCR, DVD, to be connected to AVR 37 and DTV 12, thereby The video outputs are sent to DTV 12, and their audio outputs are sent to AVR 37. In the alternative, although not preferred, these devices are connected to the AVR 37 only, and both their audio and video outputs are sent to the AVR 37.
[0023]
As mentioned above, the IRC device 30 is controlled and operated via the IR blaster cable 38. The IR blaster cable 38 of the present invention preferably comprises an electrical cable having an IR emitter connected to one end of the cable and a miniplug for connection to the DTV 12 connected to the other end. An IR emitter, preferably L-shaped, is located in front of the IR detector of each IRC device 30 or glued onto the IR detector to provide messages based on device-specific IR codes to the IRC device. It is preferable to communicate to 30. IR emitters can include opaque backing that can block IR transmissions from other sources, such as remote controls. In the alternative, the blaster cable may include a second miniplug instead of the IR detector or in addition to the IR emitter of the IRC device 30 having an IR port.
[0024]
As shown, the 1394 device 40 includes a digital VCR (D-VCR) 41, a digital camcorder 42, a digital DVD (D-DVD) 43, a digital AV (D-AV) disc player 44, and a digital AVR (D-AVR). 45, devices such as digital (D-) cable or satellite receiver 46, or other 1394 compatible systems such as home appliances and home lighting, heating, air conditioning, security type systems, etc. That is, devices 47 and 48 may be included. The 1394 device 40 may include a 1394 device of the HAVi type and may be interconnected via a 1394 cable 49 to the DTV 12 and to each other in series or parallel.
[0025]
As shown in FIGS. 2A-2F, the DTV 12 of the HTNS 10 includes a control system having an on-screen graphical user interface (UI) 50. The UI 50 and control system include graphically represented on-screen displayable icons corresponding to HTNS 10 supported devices, audio and video input options, device destinations, active "busy" device connections, etc. Preferably includes a preferred device selection menu 52. This icon is preferably labeled with a name preferred by the user U corresponding to the device. The operation and control by the UI 50 of the supported HTNS 10 is seamless, so that the control of the IRC VCR 33 and the 1394 VCR 41 looks the same to the user U.
[0026]
The device selection menu 52 of the present invention includes a device selection window (device window) 60, a video window 70, an audio selection window (audio window) 80, and a connection window 90 if a recording or other peer-to-peer connection is active. Preferably, they are respectively labeled "device", "video", "audio", and "connection". As shown, device window 60 is preferably located at the bottom of screen 11, and video window 70, audio window 80, and connection window 90 are located at the top of the screen, and video window 70. Preferably, the connection window 90 is located at the upper left corner and the audio window 80 is located at the upper right corner. The device selection menu 52 can include any number of windows, and is not limited to the device windows 60, video windows 70, audio windows 80, and connection windows 90 described above, or their orientation or position on the screen. As will be appreciated by those skilled in the art.
[0027]
DBS tuner icon 61, antenna icon 62, VCR icon 63, DVD icon 64, comprehensive IRC AV device icon 65, D-VHS VCR icon 66, D-cable or satellite corresponding to IRC and 1394 input devices 30 and 40 Icons such as a receiver icon 67, a D-DVD icon 68, and a D-AV disc icon 69 are displayed in the device window 60 as an AV source or an input device option. An icon 72 corresponding to the TV video icon 72 is displayed in the video window 70. If another video sink or video output display device is incorporated within HTNS 10, the corresponding icon may preferably be displayed in video window 70 or as part of a pull-down menu. Icons such as a TV audio icon 82, an IRC AVR icon 84, and a 1394 AVR icon 86 corresponding to the audio sink or audio output device are displayed in the audio window 80. If a recording or other peer-to-peer connection is active, an icon such as the VCR icon 92 shown in FIG. 2B or the D-VHS VCR and AV disk icon shown in FIG. Is displayed. The window may be configured to display icons of all devices simultaneously, or preferably, a window for restricting a subset of all icons to be displayed in the first view and viewing the remaining icons It may be configured to have a scrolling, paging, or pull-down function.
[0028]
The UI 50 incorporates an intuitive, on-screen, heads-up real-time visual recognition system. The visual recognition system provides an active “busy” connection, input device options, audio output when user U operates controls on remote control 20 or control panel 16 to display and navigate device selection menu 52. Preferably, the current system status, including options, video destination and output options, peer-to-peer connections, and navigation choices is visually communicated to user U. The visual recognition system of the present invention provides for highlighting the outside of the icon in light, various colors, various line types, etc., changing the icon color, fill pattern, etc., graying out or crossing out the icon, providing textual indicators. Various visual display indicators such as can be used to visually display system status, input and connection options, destinations, navigation, peer-to-peer connections, and the like. In a preferred embodiment, the status or condition of visual recognition is "disabled", "current device", and "icon selected in current menu" (or menu location), more preferably (1) current (2) The icon selected in the menu and the current source or sink device (primary and secondary highlighting); (2) The icon selected in the current menu and not the current source or sink device ( Primary highlight), (3) current source and sink device (secondary highlight) rather than icon selected in current menu, (4) icon selected in current menu and current Not a source or sink device (no highlighting), (5) unavailable or disabled (3 Emphasis includes a display, for example grayed out), the. The icon itself may be configured to convey additional information such as a power state, channel, transport state, or action (eg, a dynamic operation icon indicating that the device is moving).
[0029]
Referring to FIGS. 2A-2C, an example of a visual recognition subsystem is shown. Shown in bold outline around the D-VHS VCR icon 66 and D-AVR icon 86 in FIG. 2A, the IRC AV device 65 and TV audio icon 82 in FIG. 2B, and the DVD icon 64 and AVR icon 84 in FIG. 2C. Primary highlighting can be used to indicate the currently selected icon while navigating the device window 60 and audio window 70. If the connection window is made navigable, a thick border around the icons in this window may be used to indicate the connection icon selected in the current menu and allow the connection to be canceled. The current AV source device, the current video sink device, and the current audio sink are displayed using the secondary hatching indicated by the cross hatch in the D-VHS VCR icon 66, the TV video icon 72, and the D-AVR icon 86. Device can be shown. Using the tertiary highlighting shown in gray out of the DBS tuner icon 61 and AVR icon 84 in FIG. 2A and the DBS tuner icon 61 and D-AVR icon 86 in FIGS. 2B and 2C, the particular device is unavailable or It can indicate that it is disabled. However, the lack of highlighting indicates that the device is connected to the HTNS 10 and that operation of other devices and connection to other devices is possible, but with the current source or sink device or menu selection device icon I can show you not. 2A and 2B and the audio window 80 of FIG. 2C can be used to indicate the window that the user is currently navigating to using the primary highlighting.
[0030]
Referring to FIG. 2F, a preferred embodiment of the UI 1050 of the present invention, along with its device selection menu 1052 and visual recognition subsystem, is shown displayed on a screen 1011 of a DTV or some other main display unit. The UI 1050 displays device-specific, graphically represented and appropriately labeled icons corresponding to supported devices, video sinks or output devices, active connections, and audio sinks or output devices connected to the HTNS. It is preferred to include. For example, the DBS tuner icon 1061a includes a picture of a satellite dish and a name label "DBS" 1061b. Similarly, the antenna icon preferably includes an antenna picture, the VCR icon preferably includes a cassette tape picture, the video camera icon preferably includes a camera picture, and the AV receiver icon preferably includes a stereo picture. , The TV icon preferably includes a picture of the TV, and so on. In addition to the device name label 1061b, the icon may include a device type label, such as a 1394 label 1063a or a HAVi label 1063b.
[0031]
As part of the device selection menu 1052, the icons include a device selection window 1060 including a window label 1062 “device”, a video window 1070 including a window label 1071 “video”, and a window label 1081 “audio”. Preferably, it is displayed in the audio selection window 1080 and in a connection window 1090 that includes a window label 1091 labeled "Connection" if a recording or other peer-to-peer connection is active. The connection window 1090 can be displayed whenever there is an active recording or peer-to-peer connection, or if there is such a connection, and the icon corresponding to the source device of that connection is currently selected while navigating the device selection window 1060. It may be displayable only if it has been done. See the Ant (Antenna) A icon in device window 1060. In FIG. 2F, a particular color, such as a yellow icon border, and / or a device name label 1067 for these icons, indicated by different shaded borders around the ANT (antenna) A and AVR icons. Primary highlights 1065 and 1083, such as changing the color of and 1082 to a particular color, for example, yellow, are used to indicate the currently selected device icon while navigating the device window 1060 and audio window 1080. Using secondary highlights 1064, 1084, and 1072, such as changing the color of the icon to a particular color, eg, gold, shown in FIG. 2F as a change in the shading or lighting of the cable, AVR, and TV icons. Indicates the current AV source device, audio sink or output device, and video sink or output device. Tertiary highlights 1067 and 1068, such as greyed-out icons in device window 1060 and audio window 1080 and their labels, are used to indicate that a particular device is unavailable or disabled. However, the absence of highlighting indicates that the device is connected to the HTNS and can operate and connect to other devices. In addition, the user is currently navigating using a primary highlight 1068, such as a device or audio window border, which is indicated by a different shaded band around the periphery of the device window 1060 in FIG. 2F. Can be shown.
[0032]
FIG. 2D shows the transport menu 54 of the UI 50 displayed on the main video 13 on the screen 11 of the DTV 12. The transport menu 54 is a device control menu that preferably includes control function buttons suitable for common devices such as "play", "fast forward", "rewind", and the like. A primary highlight, indicated by the bold outline of the “play” button arrow, may be used to indicate the selected current function button while navigating in the transport menu 54. A tertiary highlight, shown grayed out on the "Record" button 55, can be used to indicate that a function is unavailable or not supported by the currently selected device.
[0033]
Referring to FIG. 2E, a PIP device selection menu 152 of the UI 50 of the present invention is shown displayed on the main video 13 of the screen 11 of the DTV 12. The PIP device selection menu 152 includes a PIP device selection window 160 and a PIP video window 170 that are substantially the same as the device window 60 of the device selection menu 52. The PIP icon 172 of the PIP video window 170 corresponds to the PIP of the screen 11 of the DTV 12, that is, the sub display screen (picture) 14. The currently selected device icon can be shown while navigating the PIP device window 160 using a primary highlighting indicated by a thick border around the VCR icon 63. Using the secondary highlighting indicated by the cross hatch in the DVD icon 64 and the PIP video icon 172, it is possible to show the current AV source device and the current video sink device, ie, the sub-display surface 14 of the screen 11 of the DTV 12. it can. Using the device as a source of PIP video using the tertiary highlighting of the D-VHS VCR device icon 66, digital cable or satellite receiver device icon 67, digital DVD device icon 68 and digital AV disk device icon 69 You can show that it is impossible. For example, if the digital signal cannot be used as the PIP source when the video signal to the main display surface 13 of the DTV 12 is an analog signal, the icons of the digital source devices are grayed out as shown in FIG. Indicates that it is not available as a device option. However, the lack of highlighting can indicate that the device is connected to HTNS 10 and is available as a PIP video source device.
[0034]
FIG. 3A is a schematic diagram of one embodiment of the DTV 12 of the present invention. As shown, the DTV 12 preferably includes an IR signal detector 103 for detecting an IR event signal transmitted from the remote control device 20. The IR detector 103 is preferably coupled to a signal amplifier 104, which is in turn connected to a TV control (TV micro) circuit board 105. The TV micro 105 includes programmable logic such as software, and operates in the same manner as a conventional TV, such as a clock, audio output, video output, volume up, volume down, channel up, channel down, and I / O port switching. Control specific tasks and functions. In a preferred embodiment, the TV micro 105 decodes input commands, including commands from the control panel 16, and filters out all IR signals that are not directed to the HTNS control system of the present invention so that the directed signals are To the HTNS control (digital module) processor or the circuit board 100. The HTNS control circuit board 100 is coupled to the TV micro 105 and connected to a main computer processing unit (CPU) 102, a memory module (s) 106, and an IR signal emitter (blaster / repeater) 135 to provide an IRC device (IR blaster). ) Includes a control processor 134; The IR blaster 135 is used to transmit an IR signal to an external IRC device. The HTNS centralized control subsystem or digital module of the control system of the present invention, described with respect to FIGS. 5 and 6, may be a programmable logic integrated into the control circuit board 100 and / or a digital module circuit as in the preferred embodiment. It includes software programmable logic executed or operated on the substrate 100. Although the TV micro 105 and the control circuit board 100 are shown as separate circuit boards, those skilled in the art will appreciate that they may be combined as one circuit board.
[0035]
3B-3D show alternative embodiments of the PDCU of the present invention, in which similar elements are correspondingly labeled. In FIG. 3B, the DTV 12 ′ includes an IR signal passing circuit having a second IR detector 401 connected in series with the IR repeater 412 as shown. This circuit allows the DTV 12 'to transmit the IR signal received by the detector 401 to an external device without any translation or decoding. In the alternative, IR repeater 412 and IR blaster 135 may be combined as a single emitter / transmitter.
[0036]
As shown in FIG. 3C, the PDCU 12 ″ of the present invention may include a TV 450 and an HTNS controller 452 coupled to the TV 450. TV 450 can be a conventional TV with IR detector 401 connected to amplifier 403 connected to TV micro 105. TV 450 may also include an IR repeater 412 for transmitting the IR signal received by IR detector 402 to an external device. As shown, the HTNS controller 452 preferably includes an IR signal detector 103 for detecting an IR event signal transmitted from the remote control device 20. The IR detector 103 is preferably coupled to a signal amplifier 104, which is in turn connected to the HTNS control circuit board 100. Circuit board 100 may include a decoder that serves to filter out all IR signals that are not directed to HTNS controller 452. The HTNS control circuit board 100 preferably includes a main computer processing unit (CPU) 102, memory module (s) 106, and an IRC blaster control processor 134 connected to an IR blaster 135. The IR blaster 135 is used to transmit an IR signal to an external device. The HTNS centralized control subsystem or digital module of the control system of the present invention may include programmable logic incorporated into the control circuit board 100 and / or software executed or operated on the digital module circuit board 100 as in the preferred embodiment. Preferably, it includes programmable logic.
[0037]
Referring to FIG. 3D, a dedicated HTNS controller 454 is shown coupled to a “slave” monitor or display screen S. The HTNS controller 454 preferably includes an IR detector 103 connected to the amplifier 104, which filters out all IR signals that are not destined for the HTNS controller 454 and controls the signals destined for HTNS control. It is connected to a decoder 108 which plays a role of transferring the data to the circuit board 100. Those skilled in the art will appreciate that the decoder 108 may be combined with the HTNS circuit board 100 as a single circuit board. The HTNS control circuit board 100 preferably includes a main computer processing unit (CPU) 102, memory module (s) 106, and an IRC blaster control processor 134 connected to an IR blaster 135. The IR blaster 135 is used to transmit an IR signal to an external device. The HTNS centralized control subsystem or digital module of the control system of the present invention may include programmable logic incorporated into the control circuit board 100 and / or software executed or operated on the digital module circuit board 100 as in the preferred embodiment. Preferably, it includes programmable logic. Alternatively, HTNS controller 454 may include a conventional computer in which the control system operates in the form of software programmable logic.
[0038]
Referring to FIG. 4, there is shown a remote controller 20 for emitting an IR signal of the present invention. As shown, the remote control 20 has many of the same function keys and buttons as a conventional universal remote control, such as numeric keys, channel up and down, volume up and down, power, mute, PIP / POP, play, stop, It includes fast forward, rewind, adjust, etc., and tends to work similarly. The remote control 20 includes a control layer lever switch 21 that allows switching between layers to control the TV and other devices such as a cable box, digital TV, digital satellite tuner, VCR, DVD, or audio device. . However, when used with the control system of the present invention, the remote control 20 can be operated at a single layer, ie, at the TV control layer, to control and operate the supported devices within the HTNS 10. Preferably, remote control 20 also includes HTNS-specific function keys or buttons. The HTNS function keys and buttons include a device key 28, which is used to display the device selection menu 52 of the UI 50 of the HTNS 10 on the screen 11 of the main video 13 of the DTV 12, and navigate within the device window 60. Can be used for Adjustment key 29 may also be used to navigate device window 60 and audio window 80, and video window 70 and connection window 90 to a navigable extent. Other HTNS-specific function keys and buttons include an audio button 26, a video button 24, and a connect button 23, which, together with the device key 28, are associated with the device window 60 and the audio window 80, the video window 70 and the connect window. Can be used to toggle between 90. Remote control 20 also includes a PIP device button 27, which can be used to initiate selection of a PIP input device from the PIP device selection menu shown in FIG. 2E. The record button 25 and connect button 23 of the remote control 20 can be used to initiate recording and other peer-to-peer connections between a source (input) device and a sink (recording) device. The recording button 25 can also be used to start recording, like the “ENTER” button. Recording and other peer-to-peer connections may be made via a physical connection path that includes the DTV 12, or via a connection path that does not include the DTV 12. For recordings between a digital 1394 source device and an analog sink device, DTV 12 preferably incorporates a downconverter to enable such recordings.
[0039]
As shown schematically in FIGS. 5 and 6, the DTV 12 of the present invention comprises a remote control device 20, an IR detector (receiver) 103, a TV micro 105, and a HTNS central control subsystem or digital module 110. 101. IR detector 103 receives and amplifies the IR signal, which is then decoded by TV micro 105. The TV micro 105 preferably filters out IR codes that are not directed to the DTV 12 of the present invention. The IR code directed to the DTV 12 is transmitted to the digital module substrate 100 and is subjected to the operation of the digital module (DM) 110. DM 110 is responsible for sending AV signals from external and internal devices to main display surface 13 and sub-display surface 14 of DTV 12, or to one or more recorders or sink devices in HTNS 10.
[0040]
The DM 110 of the present invention provides a seamless centralization of the entire supported HTNS 10, including the DTV 12, its internal devices, both 1394 and IRC type devices, as well as other inputs and system hardware interconnected with the DTV. Advantageously, allowing control, other inputs and system hardware interconnected with the DTV include 1394 compatible household appliances, lighting, heating, air conditioning, and security type systems. And so on. DM 110 makes the overall operation and control of supported devices within HTNS 10 very user friendly. The user U can configure the control system 101, and more particularly the DM 110, with the IRC device and device connection information in the HTNS 10, and the user preferences of the 1394 device. With this information, DM 110 simplifies input switching and device operation for the user. For example, DM 110 and UI 50 present the user with a list of options to view, and user U makes a selection between these options, leaving the necessary I / O port switching and device connections to DM 110.
[0041]
With DM 110 and UI 50, a user may advantageously operate all supported devices in HTNS 10 at one layer with one remote control device, for example at the TV layer of a universal remote control. The DM 110 and the UI 50 manage the details of communication with the external device regardless of whether the external device is an IRC device or a 1394 device, or a hybrid device thereof. The DM 110 translates commands from the remote controller as appropriate, issues commands in a language suitable for the device being controlled, and provides a common intuitive behavior from inside the HTNS 10 to the entire device. As a result, the user can operate the 1394 and IRC devices using the same remote control buttons. While the remote control commands are being transferred to the external device, UI 50 may preferably display some on-screen indicators.
[0042]
The DM 110 incorporates a translation function for translating an input signal such as a digital IR signal and a context-dependent context-dependent macro function. For example, to connect audio to an AV receiver input to play a DVD movie, the DM switches (if necessary) between the AV receiver input and the DTV input. The DM 110 automatically switches audio and performs all other switching necessary to output DVD audio according to the video signal. Further, the DM 110 can issue commands to DVD and AV receivers in the correct language. The actions taken by DM 110 are based on configuration information entered by the user and the current system state. When the user inputs the configuration of the input of the AV receiver, the DM 110 can automatically switch the input between the analog source and the digital source. In an AV receiver model that requires this, the DM 110 can send a command to switch the input of the AV receiver between analog and digital when needed.
[0043]
5 and 6, the subsystems or sub-modules of DM 110 include an inter-processor communication module (IPC) 107 that enables communication between DM 110 and software or other programmable logic of TV macro 105; It preferably includes a user interface module (UIM) 111, a 1394 control module 120, a 1394 driver module 124, an IR control module 130, an IR blaster control module 134, and a TV control (TVC) module 140. The UIM 111 provides a context-dependent macro function of the DM 110, and translates an input event signal from a remote control or a TV control panel based on stored configuration data and current system state information, and interprets what action to take. It instructs the 1394 module 120, IRC module 130, and TVC module 140 on what to do. UIM 111 preferably includes an AV connection manager (AVCM) module 112, a graphical user interface (GUI) module 114, and a device management system (DMS) module 116. The AVCM 112 and GUI 114 modules, in combination, serve as an interpretation / translation layer, interpret event signal commands from the remote control 20 and translate these commands into instructions to the DMS 116 and TVCM 140 regarding what action to take. translate.
[0044]
Preferably, the functions of the AVCM 112 include the DMS 116, the TVCM 140, and the TV Micro 105 with respect to devices connected to the system, active "busy" device connections, active AV switching within the device, and current TV operating parameters. By inquiring, the current state of the HTNS 10 is determined. For example, the AVCM 112 activates from the DMS 116 the IRC cable box connected to the DTV, the video of the IRC VCR connected to the DTV and its audio connected to the AVR, and the D-DVD connected peer-to-peer to the D-VCR. From the TVCM 140, the video of the VCR is sent to the main video of the DTV, the video of the cable is sent to the sub (PIP) video of the DTV, and the device selection menu is changed to the main video of the DTV. It can be determined from the current display and from the TV Micro 105 that the audio output of the DTV is off. Once the system state is determined, the function of the AVCM 112 determines, based on the system state, whether the event signal commands a direct device action or a menu-related action, such as a menu display, menu navigation, or menu device action. That is, to interpret. If the event is a direct device action, AVCM 112 directly instructs DMS 116 and / or TVCM 140 as to which device action is needed for the message containing the current system state information. For example, if the video and audio of the antenna tuner are output by the TV video and the receiver audio, respectively, and the user U presses the “volume up” key of the remote control, the AVCM 112 increases the volume of the audio of the receiver. It would command the DMS 116 directly. If the event is a menu-related action, AVCM 112 communicates an event signal to GUIM 114 along with current system state information.
[0045]
The GUIM 114 preferably includes the UI 50 of the HTNS 10 and the UI of the DTV 12, and can be expressed as a graphic window object. The function of the GUIM 114 is to determine or interpret whether the event requires the display of a menu or navigation within or between menus, or a menu device action. If the event requires a device action, the GUIM 114 instructs the DMS 116 about which device action is needed for the message containing the current system state information. If the event requires menu display or navigation, the GUIM 114 instructs the TVCM 140 to display a menu containing current system state information on the main video 13 on the screen 11 of the DTV 12. If the AV input signal displayed on the main video 13 is an analog signal from the IRC device 30, the TVCM 140 generates a menu display signal, and then transmits the signal to the TV chassis, and inputs the menu display signal to the TV chassis of the DTV 12. And adjust the composition of the menu display signal. In this case, the menu appears opaque on the screen 11. If the AV input signal is a digital signal from the 1394 device 40, the menu display signal is combined with the input signal in the TVCM 140 and then sent to the TV chassis. In this case, the menu preferably looks translucent on the screen 11.
[0046]
The functions of the DMS 116 are based on current system state information and device action instructions received from the AVCM 112 or the GUIM 114. The device to connect and operate, the device to disconnect, the method to connect and disconnect the device, and the identification. Is to decide how to operate the device. As part of this function, the DMS maintains a device container list (DCL) 117 and a device interconnect list (DIL) 118 inside the DMS. The DCL is a list of all supported devices that make up the HTNS 10, including the internal TV devices such as tuners, I / O ports, external input IRC and 1394 devices, and other input devices connected to the DTV 12, ie, a database. is there. Information about each device is placed in a device container object (DCO) stored in persistent memory 106. The DCO consists of a variety of information common to all devices regardless of device type, such information used to track devices in the system and to link device icons to the DCO of the appropriate device. Logical device ID, which device model object (DMO) is associated with the device, and for IRC devices, an IR code file and a model number ID that specifies an indication of whether the device is a 1394 device. No.
[0047]
While the DCO of the internal TV device is created in advance and stored in the persistent memory, the DCO of the external input device is used when the user logs in to each IRC device during the configuration or when the configuration system connects to the DTV 12. Created by the DMS 116 when discovering and identifying the 1394 device that was created. As part of creating a DCO, DMS 116 assigns each device a logical device ID and the DMO number of that device as part of the DCO, and indicates whether the device is a 1394 device.
[0048]
During system initialization, i.e., after AC power is applied to the DTV 12, the DCO stored in the persistent memory is read out of the storage device by the DMS 116, and based on the model number ID information contained in the DCO, A DMO is created and attached to a particular DCO, and the DCO / DMO is placed in DCL 117. Since the 1394 device is considered by the control system to be a unit device that includes logical sub-unit devices (preferably up to 32 sub-units), the DMS 116 provides a unit-level DCO / DMO and a sub-unit-level DCO / DMO. Create both. Each DCO / DMO subunit is linked to a common unit level DCO / DMO representing the entire device. For example, a 1394 device may consist of a tuner and an Av disk subunit. Each subunit has a uniquely created DCO / DMO, and these two subunits are linked to a DCO / DMO that represents the entire device. The subunit DCO is not stored in persistent memory and is rediscovered each time a device is found on the 1394 network. As a result, when a 1394 device is discovered, DMS 116 scans DCL 117 to find the DCO / DMO for that particular device. If the DCO / DMO is in the DCL 117, only the sub-unit DCO / DMO is created and attached to the unit-level DCO / DMO in the DCL 117. If the DCO / DMO is not in the DCL 117, a unit-level and sub-unit-level DCO / DMO is created, the unit-level DCO / DMO is added to the DCL 117, and the unit-level DCO is added to persistent storage.
[0049]
The DMO incorporated in the DMS includes device type-specific information common to all DVC type devices, DVD type devices, and the like. The DMS 116 creates and maintains each instance of a DMO that understands the details of connection and communication with a particular AV device, whether it is an internal TV device or an external device. DMOs include a collection of device-specific functions that know how to interface with an input device. The DMO includes details of how the device is controlled, the functions that the device can perform, the functions that the device cannot perform, and the functions of the device, including but not limited to all I / O characteristics of the device. The remote control command sent to the correct DMO tells the device what the user wants to do. The DMO preferably also contains information on how to interface with the appropriate control module corresponding to the device. The information included in the DMO is preferably defaulted to the IRC version for each device type. However, some of the information, such as audio and video parameters such as display surface brightness, stereo / mono, etc., may be modifiable by the user.
[0050]
Once the appropriate DMO is added to the DCO, the DCO / DMO contains the information needed to control the device and support the UIM 111. Therefore, the DCO / DMO includes a unique device identifier (logical device ID), a device model identifier (model number), a viewer preference name, a viewer preference icon ID, and a device type (video / audio source, video / audio sink, video). / Audio recording sync or AV switch), AV path (analog, digital, both), digital path protocol, UI menu path, permanent, ignore and connected to bus flags, preferred audio It preferably includes information such as settings, preference video settings, preference format settings, and the like.
[0051]
The DIL 118 is a list of all physical device connections of the HTNS 10, that is, a database. The DIL 118 includes all device connection ports in the HTNS 10 and connection paths between the ports. To create a connection port, the I / O characteristics of the device are obtained from the DMO. Each connection port is placed in a device interconnect object (DIO) stored in persistent memory. The information provided by the DMO to the ports preferably includes the port number, content (video, audio, or both), direction (input, output, or recording input), and type (analog or digital). DIL 118 also maintains an active "busy" connection between devices when an AV source is actively connected to an AV sink. Active connections can move along the physical connection path and pass through the AV switch device. Preferably, the DTV 12 chassis of the present invention is modeled as an AV switch device, through which the majority of AV connections pass. The active connection can come and go when the user changes the AV source and sink, but the physical connection always remains intact. DMS 116 can establish an active connection from the source to the sink, even if the video and audio take different paths.
[0052]
Preferably, as part of the configuration system, the 1394 device is automatically connected to a 1394 virtual switch DCO / DMO. The virtual switch has an infinite number of I / O ports. Therefore, when the DIO of the 1394 device is created, the DIO of the 1394 virtual switch is created, and the connection information between the device and the virtual switch is established. The connection between the virtual switch and the device is considered by the DMS 116 to be a physical connection.
[0053]
DMS 116 also maintains an IR device list, an AVR input name list, and an AVR input default list. At system startup, a list of all IRC devices is read from persistent storage and placed in the IR device list. Each entry in the list includes a device type (VCR, DVD, etc.), model number (unique number), manufacturer name, manufacturer model name, IR blasting file name, and a set of special function flags. Includes several information fields, including but not limited to: The list of names of AV receiver inputs is also read from persistent storage and placed in the AVR input name list. Finally, the list of AV receiver default input settings is read from persistent storage and placed in a list called the AVR input default list. These defaults are used during the initialization configuration operation. There is also a collection of IR code files that contain the actual IR code for each remote control device key supported for each device. There is one file for each device. The IR code file is stored in the persistent storage.
[0054]
When adding a new device as part of the configuration system described below, the GUIM 114 uses the manufacturer name and model name from the IR device list to allow the user to select an IRC device. Present. The AVR entry name list is also used by the GUIM to present the user with the name of the AVR entry in the connection screen described below. Once the manufacturer and model are selected, a uniquely identifiable model number is created for the device. When a DCO / DMO is created by the DMS 116 that uses the IRC module for communication, a message is transmitted to the IRC module 130 that associates the model number with the IR code file. Next, IRC module 130 loads the IR code file data from persistent storage into memory (IR code library) for subsequent use and associates the specified model number with that set of IR codes. The model number and IR blasting file name are used by the DMS 116 to tell the IRC module 130 what to do when the IRC module receives a command or message to do so. The message or command contains the issuing model number and key code.
[0055]
Using the known current system state and required device actions, DMS 116 accesses DCL 117 and DIL 118 to establish and disconnect connections between devices, switch between AV switch I / O ports, operate specific devices. Retrieve specific information from DCO / DMO and DIO required for operation and interface with appropriate control modules. From this information, DMO 116 creates commands or messages to communicate to 1394 control module 120, IRC module 130, TV control module 140, and TV micro 105, and performs the requested device action. All commands or requests to operate the AV switch of the DTV 12 are transmitted to the TV micro 105 via the TVCM 140. DMS 116 also modifies DIL 118 to reflect the new active "in use" device connection.
[0056]
The function of input device control modules 120, 130, and 140 is to transmit commands or instructions from DMS 116 to the selected input device in a device-friendly manner. However, the DM 110 of the present invention supports various 1394, IRC, and internal TV AV devices (eg, camcorders, DVD players, VCRs, and set-top boxes), audio decoders / amplifiers, antenna tuners, AV receivers, etc. I do. For communication to various 1394 devices and their control, the 1394 control module 120 preferably maintains a device control module (DCM) 122 for each 1394 device in the HTNS 10. DCM 122 is software that interprets commands or instructions from DMS 116 and converts them into device-specific messages. Therefore, the DCMs 122 of all 1394 devices allow the DM 110 to pass remote control commands, such as channel change, playback, stop, etc., to the DCMs of the devices and cause the commands to be sent to the devices via the 1394 driver 124 in a device-specific manner. it can. The 1394 driver provides a suitable interface between the 1394 control module 120 and an external 1394 device 126.
[0057]
Preferably, the DM 110 provides a DCM embedded in the common 1394 AV device as part of the 1394 control module 120, is capable of hosting the Java DCM communicated from the 1394 device itself, and It is possible to execute a Java Havlet (searchable from the Internet) associated with the DCM. The DM 110 also preferably supports DCM embedded in the device via the 1394 control module 120. The embedded DCM is a specific device controller written in a CPU-specific language (not Java). 1394 devices may include DCMs incorporated to support certain other devices, typically IRC devices that are expected to see. Since the IRC AV device does not exhibit its own DCM, some other device in the HTNS 10 (1394 device) must provide the DCM. Finally, the DM 110 arbitrates with other Havi FAV / IAVs to distribute the load of the hosted DCM and thus the control of the 1394 device 40 in the HTNS 10.
[0058]
For communication to various IRC devices and their control, IRC module 130 translates commands or instructions from DMS 116 into device-specific messages that include device-specific IR codes. The IRC module 130 holds an IR code library or database 131. The IRC module 130 also includes a translation layer (transcoder) 133 that translates commands or instructions into the correct IR code sent to the selected external device 136. Based on the information from the IR code library 131, including the modulation parameters (carrier frequency, duty cycle), and any indication of ON and OFF representing the command, and the DCO / DMO of the DCL 117, the exact IR code of the device 136 of interest is Synthesized. Next, the transcoder 133 or communication handler creates a message or packet containing the IR code. Next, the packet is sent to the blaster microcontroller 134 via a serial link via the blaster driver 132. Next, the blaster controller 134 sends a packet or message to the external device 136 via the IR blaster 135. IR blaster 135 is preferably an IR emitter or repeater. The blaster controller 134 preferably sends the message in a manner required by the device as indicated by the device's DCO / DMO. For example, some devices may wait for the same message to be repeated twice before responding. Blaster controller 134 may send the same command several times in a row if necessary.
[0059]
The TV control module 140 operates all TV hardware, ie, internal input devices 148 such as, for example, the digital tuner 142, the mpeg decoder 144, and the AC-3 decoder 146. The TVCM 140 manages the state of the signals on the screen, including which signals appear as the main display surface and the sub display surface, and DMS 116 regarding which configurations are possible, for example, which devices are available as PIP video sources. Answer the questions from The TVCM 140 deals with the manner in which the signal is displayed on the TV screen and the sound at that time. This includes scaling, PIP / POP / double window, demux control, MPEG decoding, audio processing, NTSC video processing, and audio synchronization between audio and video decoders. Like the IRC module 130 and the 1394 control module 120, the TVCM 140 translates commands or instructions from the DMS 116 into messages suitable for communication with the internal input device 148 of the HTNS 10.
[0060]
The DM 110 of the present invention preferably includes a configuration subsystem that advantageously provides a high connection permutation dependency within the DM 110. The configuration subsystem allows a user to configure the connection configuration of the HTNS 10 in an initialization mode immediately out of the box. In edit mode, the configuration subsystem allows a user to change, modify (ie, customize), or delete an existing configuration. In the initialization mode, the user is provided with a pre-configured configuration of the IRC device input connection of the DTV 12, and the user is instructed to connect the IRC device 140 to the DTV 12 accordingly.
[0061]
A “Devices” menu 200 (see FIGS. 7A and 7B) is presented to create DCOs / DMOs and DIOs corresponding to DCL 117 and DIL 118 and IRC device 40 of HTNS 10. The user fills in the items of the device menu 200 and logs in to each IRC device corresponding to a device having a preset connection configuration. The device menu 200 appears on the main video 13 on the screen 11 of the DTV 12 and can be filled in, navigated, and controlled using keys on the remote control 20. Preferably, the device menu 200 indicates at the top of the box 200 where the word "device type" appears here, which IRC device the user is required to log in to, ie VCR, DVD, cable, etc. . In particular, the user may be required to enter the name of the manufacturer in the “Manufacturer” window 202 and the model number in the “Model number” window 204, as shown in FIG. 7A. However, preferably, the user may be required to select a manufacturer from a pull-down manufacturer menu window 206. When the user selects a manufacturer, the control system may present a message that the control system has been optimized for the manufacturer's particular device model, as shown in FIG. 7B. The device type, manufacturer name, and model number are then used by the DMS to create DCO / DMO and DIO for supported devices.
[0062]
When all IRC devices are logged in, a “Review” menu 220 (see FIG. 8) is presented, which allows the user to connect the IRC devices 222 to the HTNS 10, their connections 223 to the DTV 12, and AV If devices such as receivers are connected to the HTNS 10, their connection 225 to the AV receiver can be checked. Since the DM 110 of the present invention incorporates a device discovery and self-identification process as specified in the HAVi and AV / C specifications, the 1394 device 224 connected to the HTNS 10 will automatically appear Appears. In addition, if a new 1394 device is added, DM 110 automatically adds it to the configuration. Finally, the review menu 220 can be used to turn off or disable certain inputs.
[0063]
To complete or edit the configuration, the user selects the “Next” key on the review menu 220 to bring up the “Exit” menu 226 (see FIG. 9A). The user can complete the configuration by selecting the "End" key, or edit the configuration by selecting the "Edit" key. If the user selects the "edit" key, an "edit" menu 228 is presented. The edit menu 228 (see FIG. 9B) allows the user to add an IRC device to unused inputs on the DTV 12, change the name or connection of an already connected IRC device, or change the entire device or configuration configuration. Preferably, it can be deleted, returned to the review menu 200 to turn the input on or off, or the initialization subsystem can be restarted. If "add" or "change" is selected, an "add / change" menu (not shown) is presented, and the user can select the device he or she wants to add or modify. When the user selects a device to add or modify, a device menu 200 (FIG. 7A or 7B) is presented, allowing the user to change the device manufacturer. When this is completed, the user selects "Next" and a "Name" menu (not shown) is presented, which allows the user to change the name of the device to a name of his choice. When this is complete, the user selects "Next" and a "Connect" menu 230 (see FIG. 9C) is presented. Connection menu 230 allows the user to customize the connection of the IRC device to the DTV and / or AV receiver. To add, modify, change, or customize the connection of the device identified in the TV input window 232 to the DTV, the user may indicate whether video and / or audio of the input device is connected to the TV by an audio box. 236 and the video box 234 can be specified. To add, modify, change, or customize the connection of the device identified in the AVR input window 238 to the AV receiver, the user can determine whether the video and / or audio of the device is connected to the AVR by audio. It can be specified by selecting box 242 and video box 240.
[0064]
Using this procedure, a “hybrid” 1394 device in the HTNS 10 can be identified and the hybrid 1394 device can be configured to operate as such in the DM 110. A hybrid 1394 device is a device that can receive analog and digital inputs and / or generate analog and digital outputs.
[0065]
During setup (initial or editing), if "Other" is selected by the manufacturer, an option may be presented to learn the IR or other control codes of the device. A learning screen is presented that provides a list of buttons on the remote control device that can be supported and learned. After the button on the screen is activated (by pressing ENTER (or select) on the remote control), the DM 110 enters a learning mode waiting for an IR code. Next, the remote control of the IRC device for which the code has been learned is pointed at the DTV 12, and a designated key is pressed to enable capture of the IR code. A change in the appearance of a soft key (eg, the addition of a check mark) indicates which keys have been successfully added to the IR code library. The learned IR code is added to the newly created DCO / DMO of the added device. DCO / DMO behaves the same as already in DMS 116. When a device is added, it will be integrated with the already supported device and will appear on the manufacturer / model screen during setup configuration as well as the already supported device. Entries in the learned device database can be added as well and stored in persistent storage.
[0066]
In operation, with reference to FIGS. 1, 2A-2D, 3A, and 4-6, user U can view the moving image played on D-VHS VCR 41 and displayed on main screen 13 of DTV 12. While pressing the device key 28 of the remote controller 20, the device selection menu 52 can be displayed. The event signal is received and amplified by the detector 103, decoded by the TV micro 105, and transmitted to the UIM 111 of the DM 110. The AVCM 112 determines the current system state and, based on such information, determines that the event is a menu-related event. The AVCM 112 sends the event and system status information to the GUIM 114. The GUIM 114 determines that the event is a menu display event based on the current system status information, and displays the current system status information and device options on the main video 13 of the screen 11 of the DTV 12 in the device selection menu 52. Is transmitted to the TVCM 140.
[0067]
As shown in FIG. 2A, when the device selection menu 52 is displayed, the visual recognition system of the UI 50 provides the user with on-screen and real-time, current system status, current navigation within the device selection menu 52, and the HTNS 10. Gives a visual perception of the connected device (ie, device options in HTNS 10). Referring to the device window 60, the cross hatch of the D-VHS VCR icon 66 indicates that the D-VHS VCR 41 is the current input device. A thick border around the D-VHS VCR icon 66 indicates that this is the device icon currently selected by navigation in the device selection window 60. The DBS tuner icon 61 is greyed out, probably because the DBS tuner 32 is disconnected from the DTV 12, the DBS tuner 32 is turned off, or the TV video checkbox is checked in the connection screen. This indicates that the DBS tuner 32 is disabled or unavailable because the DM 110 does not know what the tuner is connected to because the device is recording from the main TV video output. Other icons appear in device window 60 without highlighting, indicating that all other input devices corresponding to these icons can be connected and operated.
[0068]
Referring to the video window 70 of FIG. 2A, the cross hatch of the TV video icon 72 indicates that the main video 13 of the DTV 12 is a sink or output device for a video signal from the D-VHS VCR 41. Referring to the audio window 80, the AVR icon 84 is grayed out, indicating that the AVR 37 is not available as an audio sink for the audio signal from the D-VHS VCR 41. The TV audio icon 82 is not highlighted because the TV audio 15 of the DTV 12 is not the current audio sink for the audio signal of the D-VHS VCR 41, but the menu icon currently selected during navigation in the audio window 80. Indicates no. The cross hatch of the D-AVR icon 86 indicates that the D-AVR 44 is the current audio sink for the audio signal from the D-VHS VCR 41. The thick border around the D-AVR icon 86 indicates that the D-AVR 44 is the audio output icon currently selected during navigation in the audio window 80.
[0069]
Next, the user U can navigate to the adjacent icon 65 corresponding to the IRC AV device 35 in the device window 60 of the device selection menu 52 by pressing the left arrow of the adjustment button 29 of the remote control 20. As described above, this event signal is received and amplified by the detector 103, decoded by the TV micro 105, and transmitted to the UIM 111 of the DM 110. The AVCM 112 determines the current system state and, based on such information, determines that the event is a menu-related event. The AVCM 112 sends the event and system status information to the GUIM 114. The GUIM 114 determines that the event is a menu navigation event based on the current system state information, sends a message to navigate to the next icon in the device window 60 to the TVCM 140, and sends this information to the AVCM 112. Then, the AVCM 112 is inquired about the corresponding system state, the system state information is transmitted to the TVCM 140, and the TVCM 140 is instructed to display the current system state information and the device options in the device selection menu 52.
[0070]
As shown in FIG. 2B, in the device window 60, the thick border around the IRC AV device icon 65 indicates that this is the device icon currently selected in the navigation in the device window 60, and the D-VHS VCR icon The cross hatch at 66 indicates that the D-VHS VCR 41 is still the current input device. In the video window 70, the cross hatch of the TV video icon 72 indicates that the main video 13 of the DTV 12 is still a video sink for the video signal from the D-VHS VCR 41. Since the IRC AV device 35 is actively connected to the IRC VCR 33 through the recording peer-to-peer connection, a connection window 90 is displayed. In the connection window 90, a VCR icon 92 indicates that the IRC AV device 35 is connected to the IRC VCR 33 by recording or some other peer-to-peer connection. In the audio window 80, the thick border around the TV audio icon 82 indicates that this is the device icon currently selected in the navigation in the audio window 80, and that an audio connection with the IRC VCR device 35 is possible. The AVR icon 84 without a thick border indicates that the IRC AV receiver 37 is available as an audio sink for the audio signal of the IRC AV device 35, but is not the icon currently selected by the navigation in the audio window 80. Is shown. The D-AVR icon 86 includes a cross hatch to indicate that this is the current audio sink for the audio signal from the D-VHS VCR 41. The D-AVR icon 86 is also grayed out to indicate that the D-AV receiver 44 is not available as an audio sink for audio signals from the IRC AV device 35.
[0071]
The user U can again press the left arrow of the adjustment button 29 of the remote control 20 to navigate to the adjacent DVD icon 64 corresponding to the IRC DVD player 34 in the device window 60 of the device selection menu 52. Also in this case, the event signal is received and amplified by the detector 103, decoded by the TV micro 105, and transmitted to the UIM 111 of the DM 110. The AVCM 112 determines the current system state and, based on such information, determines that the event is a menu-related event. The AVCM 112 sends the event and system status information to the GUIM 114. The GUIM 114 determines that the event is a menu navigation event based on the current system state information, sends a message to navigate to the next icon in the device window 60 to the TVCM 140, and sends this information to the AVCM 112. Sends an inquiry to the AVCM 112 for the corresponding system status, sends the system status information to the TVCM 140, and instructs the TVCM 140 to display the current system status information and device options in the device selection menu 52.
[0072]
As shown in FIG. 2C, in the device window 60, the thick border around the DVD icon 64 indicates that the caller is the currently selected device icon in the navigation in the device selection window 60, and the D-VHS VCR The cross hatch in icon 66 indicates that D-VHS VCR 41 is still the current input device. In the video window 70, the cross hatch of the TV video icon 72 indicates that the main video 13 of the DTV 12 is still a video sink for the video signal from the D-VHS VCR 41. In the audio window 80, the thick border around the AVR icon 84 indicates that this is the device icon currently selected for navigation in the audio window and is available as an audio sink for audio signals from the IRC DVD player 34. Show. The TV audio icon 82 without the thick outline indicates that the TV audio 15 of the DTV 12 is available as an audio sink for the audio signal from the IRC DVD player 34 and the TV audio icon is currently selected in the navigation in the audio window 80. Indicates no. The D-AVR icon 86 includes a cross hatch to indicate that this is the current audio sink for the audio signal from the D-VHS VCR 41. The D-AVR icon 86 is also grayed out to indicate that the D-AV receiver 44 is unavailable as an audio sink for audio signals from the IRC DVD player 34. Alternatively, the D-AVR icon 86 may be grayed out without a cross hatch if the device is not available as an audio sink.
[0073]
Next, the user U can press the ENTER (or select) button 22 on the remote control or some other suitable key to select the currently selected one (the highlighted device) in the device selection menu 52. it can. If the currently selected icon corresponds to a 1394 device, a pop-up menu (not shown) is presented that provides the user with selectable subunit options. The adjust button can be used to navigate between subunit choices and the ENTER (or select) key can be used to select the desired subunit.
[0074]
As described above, this event signal is received and amplified by the detector 103, decoded by the TV micro 105, and transmitted to the UIM 111 of the DM 110. The AVCM 112 determines the current system state and determines that the event is a menu-related event. The AVCM 112 sends the event and system status information to the GUIM 114. The GUIM 114 determines, based on the current system state information, that the event is a menu device action, includes the current system state information, and indicates that the DVD player 34 has been selected as an input device, and that the DTV TV video 13 Is a video output device and sends a message or command to the DMS 116 to inform the DMS 116 that the IRC AV receiver 37 has been selected as the audio output device. Based on current system state information and device commands, DMS 116 queries DCL 117 and DIL 118 for connections, I / O ports, operation information, etc. included in DCO / DMO and DIO, and then creates appropriate messages. The message is transmitted to the TVCM 140, and the message is transmitted to the TVCM 140 so that the TV micro 105 switches the video input port from the port of the D-VHS VCR 41, that is, the 1394 port to the port to which the IRC DVD player 34 is connected. Is what you order. DMS 116 also creates and sends an appropriate message to 1394 control module 120 that instructs 1394 control module 120 to stop or shut down D-VHS VCR 41 and D-AVR 44. The 1394 control module 120 calls the appropriate DCM 122, which translates the instructions into device-specific messages, which the 1394 driver sends to the D-VHS VCR 41 and D-AVR 44 to shut down or shut down the device. . The DMS 116 also operates the DVD 34 and the IRC AV receiver 37 to make the appropriate switches within the DVD and AVR, and creates the appropriate messages that instruct the IRC module 130 to enable an audio connection between them. Then, the data is transmitted to the IRC module 130. The IRC module 130 accesses the IR code library 131 and creates a message corresponding to a command from the DMS 116 that includes a device-specific IR code of the selected device. Next, the message or packet is sequentially transmitted to the IR blaster controller 134 via the blaster driver 132. The IR blaster controller 134 controls the transmission of packets via the IR blaster 135 (emitter / repeater) to the DVD player 34 and AVR 37 according to the DCO / DMO of the selected device.
[0075]
The GUIM 114 instructs the TVCM 140 to present the transport menu 54 at the same time that the DMS 116 operates seamlessly for device switching and connection. Transport menu 54 provides user U with a well-known set of control function buttons for operating external devices via the control system and interacting with UI 50 and DM 110. Transport menu 54 includes a list of six icons corresponding to the standard commands "rewind", "play", "fast forward", "stop", "pause", and "record". Transport menu 54 may also typically be displayed when an external device is active and any of the keys corresponding to these standard commands are pressed on remote control 20. As shown in FIG. 2D, the button corresponding to a function that the selected device cannot perform (eg, a conventional DVD player cannot record) is grayed out, so that the record button is shown grayed out.
[0076]
For IRC devices, DM 110 preferably incorporates the display and operation of device-specific control menus generated by the IRC device. DM 110 preferably maps such menu display to a “menu” key on the remote control. In the case of a 1394 device, DM 110 preferably incorporates an "on-screen display" (OSD) controller for displaying an OSD from an external 1394 device that provides the OSD. OSDs from these devices allow access to the unique functions of those devices that are not part of normal control. For example, pressing the play button allows the AV / CD-VCR to start playing. However, the user can still access unique features such as complex "cueing by GOP" by accessing the menu of the AV / CD-VCR. The DM 110 preferably incorporates a method that includes the external device UI such that the external device UI is an extension of itself. To do this, DM 110 preferably incorporates an AV / C panel controller function, a HAVi DDI interface, an EIA-775A bitmap interface, a HAVi level 2 UI (havlet), and the like.
[0077]
When the play button of the transport menu 54 is highlighted, the user U can start playing the DVD player 34 by pressing the ENTER (or select) key 22 or the play button of the remote control 20. As described above, this event signal is received and amplified by the detector 103, decoded by the TV micro 105, and then transmitted to the UIM 111 of the DM 110. The AVCM 112 determines the current system state and determines that the event is a menu-related event. The AVCM 112 sends the event and system status information to the GUIM 114. The GUIM 114 determines, based on the current system state information, that the event is a menu device action, includes a message or command that includes the current system state information and instructs the DMS 116 to cause the DVD player 34 to begin playback. Transmit to DMS116. Based on the current system state information and the device command “play”, the DMS 116 creates an appropriate message instructing the DVD 34 to start playing and sends it to the IRC module 130. The IRC module 130 accesses the IR code library and creates a message corresponding to a playback command from the DMS 116 including a device-specific IR code. Next, the message or packet is sequentially transmitted to the IR blaster controller 134 via the blaster driver 132. The IR blaster controller 134 controls transmission of a packet to the DVD player 34 via the IR blaster 135. The DVD player 34 starts reproduction, the video is output to the main display surface 13 of the screen 11 of the DTV 12, and the audio is output from the IRC AV receiver 37. While DM 100 is performing all of the above operations, GUIM 114 may instruct TVCM 140 to display a visual indicator that such activity is taking place.
[0078]
In the case of the PIP operation, the user U can display the PPIP device selection menu 152 by pressing the PIP device key 27 of the remote control 20, but the PIP device selection menu 152 is, as shown in FIG. The device window 160 and the video window 170 look almost the same as the device window 60 and the video window 70 of FIG. The sub display surface icon 172 corresponds to the PIP of the screen 11 of the DTV 12, that is, the sub display surface 14. DM 110 is responsible for displaying PIP device selection menu 152 and responds to navigation and device action commands as described above with respect to device selection menu 52. The GUIM 114, in conjunction with the TVCM 140, grays out the icons of devices that are not available to indicate which input devices are available as source devices for PIP video in the PIP device window 160. For example, if the video signal to the main display surface 13 is an analog signal, all icons corresponding to the 1394 device may be grayed out.
[0079]
In the case of recording or other peer-to-peer connection operation, the user U can press the recording button 25 and the connection button 23 of the remote control 20. In response, DM 110 displays a recording / connection menu 250 on screen 11 of DTV 12, where the current device is the source device (see FIG. 10). For immediate recording, the user U selects a recording device in the device window 252, selects a duration in the duration window 254, and then presses the recording button 25 of the remote controller 20. For later recording, user U also selects a start time in the start time window 256, selects a date in the set date window 258, and then selects an add button in the dialog window 250 for permanent storage. A recording reservation (future recording) is stored in the device. When recording output from antennas, cable boxes, satellite boxes, and other devices with channel selection, the user selects the channel to record in the channel window 260. When recording output from a 1394 device, a pop-up menu (not shown) is presented that provides the user with selectable subunit options. The adjust button can be used to navigate between subunit choices and the ENTER (or select) key can be used to select the desired subunit. To view the list of scheduled recordings, user U may select the list button in dialog window 250. To connect the source device to the sink device in a peer-to-peer connection, user U selects a device in device window 252, selects a duration in duration window 254, and then presses connect button 25 on remote control 20. .
[0080]
Recording and other peer-to-peer connections may be through a physical connection that includes the DTV 12, or through a physical connection that does not include the DTV 12, such as playing video from a D-DVD 1394 device on an auxiliary 1394 video display device. Can be done. As with other operations, the DM 110 receives the recording or connection event signal and translates the signal to make the necessary switching, necessary connections, and operation of the selected device all transparent to the user U.
[0081]
The control system 101 of the present invention synchronizes the IR messages emitted to the supported IRC devices with the messages entered from the remote control 20 and emits them during the interval between the remote messages, thereby avoiding IR "jamming". Preferably, this is described in U.S. patent application Ser. No. 09 / 535,263 entitled "Protocol For Avoiding Interference Between Transmission Devices." IR disturbance occurs when an external device cannot decode a command issued to the remote control 20 because the remote control 20 is transmitting simultaneously. Preferably, the software on the remote control 20 leaves an interval at which the DM 110 can emit messages to other devices. DM 110 preferably coordinates its IR transmission with those intervals. Preferably, the blaster 135 has means for communicating a busy / completion status to the DM 110.
[0082]
After a user command from the IR remote control 20 or the front panel 16 initiates an operation, the operation is preferably not interrupted by another user command, except in certain desired cases. Similarly, in the preferred case, a user's command ignored because any operation is already in progress is discarded and not buffered for future use.
[0083]
As shown in FIGS. 11A and 11B, an apparatus, system, or system that optionally allows transit IR control of an IRC device 418 that is not supported in a consumer electronic system or HTNS 400 network while avoiding IR signal interference. And a method are provided. HTNS 400 preferably includes a translator subsystem 408, such as a DM of the present invention, and an IR signal blaster or repeater 412. In addition, HTNS 400 includes a remote control A 402 that controls supported IRC devices 414 and 416 within HTNS 400, an IR detector 406 serially connected to translator subsystem 408, and a supported IRC device 414 serially connected to translator 408. , 416 and an IR transmitter 412 that transmits IR signals to unsupported IRC devices 418. HTNS 400 includes another remote control B404 for operating an unsupported IRC device 418. The second remote control B404 may alternatively be the second programmable layer of the remote control A402 of the supported device. Translator subsystem 408 preferably does not recognize the signal sent from unsupported device remote control B404 or does not pass such signal to transmitter 412 to broadcast to unsupported device 418. Therefore, a gate 410 connected in series to the detector 406 and the transmitter 412 is provided in the HTNS 10. However, gate 410 is also connected in series to translator 408 via communication link 409. When gate 410 is open, signals from unsupported device remote control B404 are "passed" to transmitter 412 for broadcast to unsupported device 418. When the gate 410 is closed, no signal from any remote control can "pass through" to the transmitter 412, thereby avoiding IR signal interference at the transmitter 412. The operation of gate 410 is controlled by translator 408, which instructs gate 410 to close once it begins to affect the IR event signal. Translator 408 determines whether the IR signal is unrecognized, that is, not recognized from a supported remote control, or only after transmitter 412 completes broadcasting the signal to supported devices 414 and 416. Command to open. The transmitter 412 preferably has the function of telling the translator 408 when it is busy and when it is not.
[0084]
Alternatively, HTNS 10 may include a first detector 406 connected in series to translator 408 and a second detector 405 connected in series to gate 410. Preferably, the first detector 406 filters out any signals not originating from the remote control A402 of the supported device. The second detector 405 is preferably a broadband detector and is gated to detect IR signals originating from the remote control B404 of the unsupported device and to pass such signals to the transmitter 412. 410. The operation of gate 410 is controlled by translator 408 in substantially the same manner as in the above embodiment.
[0085]
Referring to FIGS. 12 and 13, an IR transit system for controlling devices not supported by DM is shown incorporated into the HTNS 10 of the present invention. As shown, a second broadband detector 401 detects an IR signal not generated from the HTNS remote controller 20 or an IR signal generated from a control layer other than the TV layer 23 of the HTNS remote controller 20 of the present invention. Is provided. The detector 401 is connected in series to the gate 410, and the gate 410 is connected in series to the IR blaster 135 and the IRC module 130 of the present invention. When gate 410 is open, the signal detected by wideband detector 401 is "passed" to IR blaster 135 for broadcast to unsupported external device 136. If the gate 410 is closed, the signal detected by the broadband detector 401 will not be "passed" to the IR blaster 135, thereby avoiding IR interference. Gate 410 is controlled by IRC module 130, which instructs gate 410 to close once it begins to affect IR event messages received from DMS 116. The IRC module 130 commands the gate 410 to open only after the IR blaster 135 has finished broadcasting the signal to the external device 136. The IR blaster 135 preferably has the function of telling the IRC 130 module when it is busy and when it is not.
[0086]
While various modifications and alternatives may be made to the invention, specific examples thereof have been shown in the drawings and have been described in detail herein. However, the invention should not be limited to the particular forms disclosed, which, on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit of the disclosure. It should be understood that there is.
[Brief description of the drawings]
[0087]
FIG. 1 is a diagram showing an example of a device interconnection configuration of a home theater network system of the present invention.
FIG. 2A is a schematic diagram illustrating an example of a home theater network system of the present invention including a television to which various IRC and 1394 AV devices are connected. A graphical user interface of the control system of the present invention is shown on the display of the television, providing visual recognition of current system status, user navigation of device and audio menus, device connection options, and active device connections.
FIG. 2B is a schematic diagram illustrating the home theater network system presented in FIG. 2A. The control system graphical user interface shown on the television display provides visual recognition of current system status, user navigation of device and audio menus, device connection options, and active device connections.
FIG. 2C is a schematic diagram illustrating the home theater network system presented in FIG. 2A. The control system graphical user interface shown on the television display provides visual recognition of current system status, user navigation of device and audio menus, device connection options, and active device connections.
FIG. 2D is a schematic diagram illustrating the home theater network system presented in FIG. 2A. A graphical user interface of the control system shown on the television display provides a device-specific control (transport) menu for operation of the selected device.
FIG. 2E is a schematic diagram illustrating the home theater network system presented in FIG. 2A. A graphical user interface of the control system shown on the television display provides PIP device connection options.
FIG. 2F is a graphical illustration of a preferred embodiment of the graphical user interface of the control system of the present invention.
FIG. 3A is a schematic diagram of a remote control and a television according to the present invention.
FIG. 3B is a schematic diagram of an alternative embodiment of the remote control and television shown in FIG. 3A, including an IR pass circuit.
FIG. 3C is a schematic diagram of a remote control and main display and control unit according to the present invention with a television and a separate HTNS controller.
FIG. 3D is a schematic diagram of a remote control and main display and control unit according to the present invention with a monitor or display and a separate HTNS controller.
FIG. 4 is a plan view of a remote controller for a home theater network system according to the present invention.
FIG. 5 is a schematic diagram of a control system of the home theater network system of the present invention.
FIG. 6 is a schematic diagram of a user interface module of the control system of the present invention.
FIG. 7A is a diagram showing a device log in a menu of a setting configuration subsystem of the present invention.
FIG. 7B illustrates a preferred embodiment of a device log in a menu.
FIG. 8 is a diagram showing a device connection review menu of a setting configuration subsystem.
FIG. 9A is a diagram showing an end menu of the setting configuration subsystem.
FIG. 9B is a diagram showing an edit menu of the setting configuration subsystem.
FIG. 9C is a diagram showing a device connection customization menu of the setting configuration subsystem.
FIG. 10 is a diagram showing a menu for starting recording or peer-to-peer connection.
FIG. 11A is a schematic diagram of an IR signal passing and control system of the present invention.
FIG. 11B is a schematic diagram of an alternative embodiment of an IR signal passing and control system.
FIG. 12 is a schematic diagram of a remote control and a television of the home theater network system of the present invention, incorporating an IR passing and control system.
FIG. 13 is a schematic diagram of a control system of the home theater network system of the present invention incorporating an IR passage and control system.

Claims (461)

A plurality of devices, including a combination of 1394 digital devices and IR control (IRC) analog devices;
An input adapted to receive a user input command and an output coupled to the plurality of devices, wherein the user input command is converted to an output message for driving the 1394 device and the IRC device suitable for the device. A network system including a command center for translating. The network system according to claim 1, wherein the command center includes an audio / video (AV) system. The network system according to claim 2, wherein the AV system includes a television. The network system according to claim 1, wherein the command center includes a control unit and a main display unit coupled to the control unit. The network system according to claim 4, wherein the control unit includes a computer. The network system according to claim 4, wherein the main display unit includes a television. The network system of claim 1, wherein the command center includes a context-sensitive control system that translates user input commands into output messages suitable for the device that drive the 1394 device and the IRC device. The context-dependent control system comprises:
A translation module for translating a user input command, and first and second coupled to the translation module for translating the translated user input command into output messages suitable for the device that drive the 1394 device and the IRC device. The network system according to claim 7, further comprising a control module. 9. The network system of claim 8, further comprising a 1394 driver module coupled to said first control module and adapted to communicate an output message suitable for a device to said 1394 device. The network system of claim 9, further comprising an IR emitter controller coupled to the second control module, and an IR emitter coupled to the IR emitter controller. 9. The network system according to claim 8, wherein the command center includes a main display screen. The network system of claim 11, wherein the control system includes a graphical user interface (UI) displayable on the screen of the command center and coupled to the translation module of the control system. The network system according to claim 12, wherein the UI includes a device selection menu including a plurality of icons corresponding to the plurality of devices. 14. The network system according to claim 13, wherein the device selection menu includes a device selection window, a video sync window, and an audio sync window. The network system according to claim 14, wherein the device selection menu further includes a connection sink window. 14. The network system according to claim 13, wherein the UI further comprises a visual recognition system. 17. The network system according to claim 16, wherein the visual recognition system includes three visual recognition states. The network system according to claim 17, wherein the three visual recognition states include a disabled state, a state that is a current device, and a state in which a device is selected. 19. The network system according to claim 18, wherein the visual recognition system includes five visual recognition states. The five states of the visual recognition system are disabled state, selected / current device state, selected / not current device state, unselected / not current device state, and selected state. 20. The network system of claim 19, including a status of not being / current device. The translation module,
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 9. The network system of claim 8, further comprising a third module for determining which device connection to make, and instructing the first and second control modules which device action to take. The network system of claim 1, further comprising a user command input device operatively coupled to the command center input. 23. The network system according to claim 22, wherein the input device is a remote controller. 24. The network system according to claim 23, wherein the remote controller emits an IR signal. The network system of claim 1, further comprising an IR emitter cable coupling the IR control device to the output of the command center. 26. The network system of claim 25, further comprising a 1394 cable coupling said 1394 device to said output of said command center. A control unit having an input for receiving a user input command;
A main display unit coupled to the control unit;
A plurality of audio and video (AV) devices coupled to the output of the control unit, including a combination of 1394 and IRC devices;
A home theater network system (HTNS) that runs on the control unit and includes a control system that translates user input commands into output messages suitable for the device that drive the 1394 device and the IRC device. The HTNS of claim 27, wherein the main display unit and the control unit include an AV system. The HTNS of claim 28, wherein the AV system comprises a television. The HTNS of claim 27, wherein the control unit comprises a computer. The HTNS of claim 27, wherein the main display unit comprises a television. The HTNS of claim 27, wherein the control system includes a user interface (UI) module that translates user input commands. The control system further includes an IR control module and a 1394 control module coupled to the UI module, wherein the IR control module and the 1394 control module are adapted to translate translated user input commands to the device. The HTNS of claim 32, converting the output message to drive the IRC device. The HTNS of claim 33, wherein the control unit and the main display unit include a television, the plurality of AV devices include an internal television AV device, and the control system further includes a television control module. 34. The HTNS of claim 33, further comprising a 1394 driver module coupled to the 1394 control module and adapted to communicate device-specific output messages to the 1394 device. The HTNS of claim 35, further comprising an IR emitter controller coupled to the IR control module, and an IR emitter coupled to the emitter controller. The HTNS of claim 33, wherein the control system includes a graphical user interface (GUI) displayable on a screen of the main display unit and coupled to the UI module. The HTNS according to claim 37, wherein the GUI includes a device selection menu including a plurality of icons corresponding to the plurality of AV devices. The HTNS of claim 38, wherein the device selection menu includes a device selection window, a video sync window, and an audio sync window. The HTNS of claim 39, wherein the device selection menu further comprises a connection sink window. The HTNS of claim 37, wherein the GUI further comprises a visual recognition system. 41. The HTNS of claim 40, wherein the visual recognition system includes three visual recognition states. 43. The HTNS of claim 42, wherein the three visual recognition states include a disabled state, a current device state, and an icon selected state. The HTNS of claim 41, wherein the visual recognition system includes five visual recognition states. The five states of the visual recognition system are: disabled state, icon selected / current device state, icon selected / not current device state, icon not selected / current The HTNS of claim 44, including non-device status and status where the icon is not selected / current device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 34. The HTNS of claim 33, further comprising a third module for determining which device connection to make, and instructing the IR control module and the 1394 control module what device action to take. The HTNS of claim 27, further comprising a user command input device operably coupled to the input of the control unit. The HTNS of claim 47, wherein the input device is a remote control. 49. The HTNS of claim 48, wherein said remote control emits an IR signal. 49. The HTNS of claim 48, wherein the remote control emits an RF signal. The HTNS of claim 27, wherein the input of the control unit is a USB port. The HTNS of claim 27, wherein the input of the control unit comprises a speech recognition system. The HTNS of claim 27, wherein the input of the control unit comprises an Internet connection. 28. The HTNS of claim 27, further comprising an IR emitter cable coupling the IRC device to the output of the control unit. 55. The HTNS of claim 54, further comprising a 1394 cable coupling the 1394 device to the output of the control unit. 30. The HTNS of claim 29, wherein the plurality of AV devices include an internal television AV device. The HTNS of claim 31, wherein the plurality of AV devices include an internal TV AV device. 28. The HTNS of claim 27, further comprising a non-AV1394 device coupled to the output of the control unit. 58. The HTNS of claim 57, wherein the non-AV1394 device includes consumer electronics and systems. A command center having an input adapted to receive a user input command;
A plurality of devices that communicate with the command center in a plurality of protocols, and a plurality of devices that are associated with the command center and have a unified user interface for controlling the plurality of devices; A network system comprising a context-sensitive control system that translates output messages that drive the device. 61. The network system according to claim 60, wherein said command center comprises an audio video (AV) system. 62. The network system according to claim 61, wherein said AV system includes a television. 61. The network system of claim 60, wherein said command center includes a control unit and a main display unit coupled to said control unit. The network system according to claim 63, wherein the control unit includes a computer. The network system according to claim 63, wherein the main display unit includes a television. The network system according to claim 60, wherein the plurality of devices include a combination of a 1394 device and an IR control device. The network system according to claim 60, wherein the plurality of devices include a combination of a global control device and a local control device. The network system according to claim 60, wherein the plurality of devices include a combination of a high-speed device and a low-speed device. The network system according to claim 60, wherein the plurality of devices include a combination of an AV device and a non-AV device. The network system according to claim 60, wherein the plurality of devices include a combination of an analog device and a digital device. The control system includes:
A translation module for translating a user input command, and first and second control modules coupled to the translation module for translating the translated user input command into output messages suitable for a device that drive the plurality of devices. 61. The network system of claim 60, comprising: 72. The network system according to claim 71, wherein said command center includes a main display screen. 73. The network system of claim 72, wherein the user interface is displayable on the screen of the command center and includes a graphical user interface (GUI) coupled to the translation module of the control system. 74. The network system according to claim 73, wherein the GUI includes a device selection menu including a plurality of icons corresponding to the plurality of devices. The network system according to claim 74, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. The network system according to claim 75, wherein the device selection menu further includes a connection sink window. The network system according to claim 74, wherein the GUI further comprises a visual recognition system. 78. The network system of claim 77, wherein said visual recognition system includes a plurality of visual recognition states. 79. The network system of claim 78, wherein the plurality of visual recognition states include a disabled state, a state that is a current device, and a state where a device is selected. 78. The network system according to claim 77, wherein the plurality of visual recognition states include five visual recognition states. The five states of the visual recognition system are disabled state, selected / current device state, selected / not current device state, unselected / not current device state, and selected state. 81. The network system of claim 80, including a status of not being / current device. The translation module,
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether a menu-related action is a menu display action, a menu navigate action, or a menu device action; and coupled to the first and second modules. 72. The network system of claim 71, further comprising a third module for determining which device connection to make and instructing the first and second control modules what device action to take. The network system of claim 60, further comprising a user command input device operatively coupled to the command center input. The network system according to claim 83, wherein the input device is a remote controller. 85. The network system according to claim 84, wherein the remote controller emits an IR signal. A control unit having an input for receiving a user input command, and an output;
A main display unit coupled to the control unit;
A plurality of devices coupled to the output of the control unit;
A network having a unified user interface operating on said control unit for controlling said plurality of devices and comprising a context sensitive control system for translating user input commands into output messages suitable for the devices and for driving said plurality of devices; system. 89. The network system according to claim 86, wherein said main display unit and said control unit include an AV system. The network system according to claim 87, wherein the AV system includes a television. 87. The network system of claim 86, wherein said control unit comprises a computer. 87. The network system of claim 86, wherein said main display unit comprises a television. The network system of claim 86, wherein the control system includes a user interface (UI) module that translates user input commands. 92. The network of claim 91, wherein the control system further comprises a device control module coupled to the UI module and for converting translated user input commands into output messages suitable for the device and for driving the plurality of devices. system. 93. The network system of claim 92, wherein the control unit and the main display unit include a television, the plurality of devices include an internal television AV device, and the control system further includes a television control module. 93. The network system of claim 92, wherein the user interface is displayable on a screen of the main display unit and includes a graphical user interface (GUI) coupled to the UI module. The network system according to claim 94, wherein the GUI includes a device selection menu including a plurality of icons corresponding to the plurality of devices. The network system according to claim 95, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. The network system according to claim 96, wherein the device selection menu further includes a connection sink window. The network system of claim 94, wherein the GUI further comprises a visual recognition system. 100. The network system of claim 98, wherein the visual recognition system includes a plurality of visual recognition states. 100. The network system of claim 99, wherein the plurality of visual recognition states include a disabled state, a current device state, and an icon selected state. The network system according to claim 98, wherein the plurality of visual recognition states include five visual recognition states. The five states of the visual recognition system are: disabled state, icon selected / current device state, icon selected / not current device state, icon not selected / current 102. The network system of claim 101, including a status that is not a device and a status where the icon is not selected / current device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 93. The network system of claim 92, further comprising a third module for determining which device connection to make, and instructing the device control module which device action to take. 89. The network system according to claim 86, wherein the plurality of devices include a combination of a 1394 device and an IR control device. 89. The network system according to claim 86, wherein the plurality of devices include a combination of a global control device and a local control device. 87. The network system according to claim 86, wherein the plurality of devices include a combination of a high-speed device and a low-speed device. The network system according to claim 86, wherein the plurality of devices include a combination of an AV device and a non-AV device. 87. The network system of claim 86, wherein said plurality of devices include a combination of analog and digital devices. 87. The network system of claim 86, further comprising a user command input device operatively coupled to said input of said control unit. The network system according to claim 109, wherein the input device is a remote controller. The network system according to claim 110, wherein the remote controller emits an IR signal. The network system according to claim 110, wherein the remote controller transmits an RF signal. 87. The network system according to claim 86, wherein said input of said control unit is a USB port. 87. The network system of claim 86, wherein said input of said control unit comprises a speech recognition system. 87. The network system of claim 86, wherein said input of said control unit comprises an internet connection. Display screen,
A circuit coupled to the screen,
An input coupled to the circuit and adapted to receive a user input command;
A television having an output coupled to the circuit and a control system operating on the circuit and translating user input commands into messages suitable for the device that drive a 1394 peripheral device and an IR control peripheral device. The television of claim 116, wherein the television is a digital television. 117. The television of claim 116, further comprising a downconverter adapted to convert the digital original signal to an analog signal. 117. The television of claim 116, further comprising a plurality of internal audio / video (AV) devices coupled to the control system. 120. The television of claim 119, wherein the plurality of internal AV devices include an original signal tuner. 117. The television of claim 116, wherein the control system includes a user interface (UI) module that translates user input commands. The control system further includes an IR control module and a 1394 control module coupled to the UI module, the IR control module and the 1394 control module adapted to translate translated user input commands to the device. 124. The television of claim 121, converting the output message to drive the IRC device. An IR control module coupled to the UI module and for converting translated user input commands into messages suitable for the device to drive an IR control device, a 1394 device, and an internal television AV device; 122. The television of claim 121, further comprising a control module, and a television control module. 123. The television of claim 122, further comprising a 1394 driver module coupled to the 1394 control module and adapted to communicate an output message appropriate for the device to an external 1394 device via the television output. 125. The television of claim 124, further comprising an IR emitter controller coupled to the IR control module, and an IR emitter coupled to the emitter controller. 123. The television of claim 121, wherein the control system includes a graphical user interface (GUI) displayable on the screen and coupled to the UI module. The GUI includes a device selection menu including a plurality of icons corresponding to each of the plurality of internal AV devices and external 1394 and IR control devices when the devices are coupled to the television output. 126. The television according to 126. 130. The television of claim 127, wherein the device selection menu includes a device selection window, a video sync window, and an audio sync window. 129. The television of claim 128, wherein the device selection menu further comprises a connection sink window. 130. The television of claim 127, wherein the GUI further comprises a visual recognition system. 130. The television of claim 130, wherein the visual recognition system includes three visual recognition states. 132. The television of claim 131, wherein the three visual recognition states include a disabled state, a state of being a current device, and a state where an icon is selected. 133. The television of claim 132, wherein the visual recognition system includes five visual recognition states. The five states of the visual recognition system are: disabled state, icon selected / current device state, icon selected / not current device state, icon not selected / current 135. The television of claim 133, including a non-device state and an icon not selected / current device state. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 123. The television of claim 122, further comprising a third module for determining which device connection to make and instructing the IR control module and the 1394 control module what device action to take. 117. The television of claim 116, further comprising a user command input device operably coupled to the input. 139. The television of claim 136, wherein the input device is a remote control. 138. The television of claim 137, wherein the remote control emits an IR signal. 139. The television of claim 138, further comprising an IR signal detector coupled to the circuit. 140. The television of claim 139, further comprising a television control circuit board coupled to the IR signal detector and the circuit board. 140. The television of claim 139, further comprising an amplifier coupled to the IR signal detector. 138. The television of claim 137, wherein the remote control transmits an RF signal. The television of claim 116, wherein the input is a USB port. The television of claim 116, wherein the input comprises a speech recognition system. 117. The television of claim 116, wherein the input comprises an Internet connection. A controller for a network system including a combination of a 1394 device and an IR control (IRC) device,
Input command receiver,
A plurality of outputs, and a user input command coupled to the input command receiver and the plurality of outputs, and translating a user input command into an output message for driving the 1394 device and the IRC device suitable for the device; A controller comprising a control module adapted to send said output message to each of said devices when an IRC device is coupled to said plurality of outputs. 146. The controller of claim 146, further comprising a main display unit coupled to the control module. 147. The controller of claim 147, wherein the main display unit comprises a television. 147. The controller of claim 146, further comprising a downconverter adapted to convert a digital raw signal to an analog signal. 149. The controller of claim 148, wherein the television is a digital television. 148. The controller according to claim 147, wherein the main display unit includes a slave monitor. 146. The controller of claim 146, wherein the control module includes a user interface (UI) module that translates user input commands. The control module is coupled to the UI module and converts translated user input commands into output messages suitable for the device that drive the 1394 device and the IRC device, and provide the output message to the 1394 device and the IRC device. 153. The controller of claim 152, further comprising a plurality of input device controllers adapted to send output messages. The plurality of input device controllers are coupled to the UI module and are adapted to convert translated user input commands into messages suitable for the device and for driving an internal audio / video (AV) television device. 153. The controller of claim 153, comprising a television controller. 153. The controller of claim 153, further comprising a 1394 driver module coupled to one of the plurality of input device controllers and adapted to communicate an output message appropriate for the device to an external 1394 device. 161. The controller of claim 155, further comprising an IR emitter controller coupled to one of the plurality of input device controllers, and an IR emitter coupled to the IR emitter controller. 147. The controller of claim 146, including a graphical user interface (GUI) coupled to the control module and displayable on a screen coupled to the controller. 157. The controller of claim 157, wherein the GUI includes a device selection menu including a plurality of icons corresponding to each device when a 1394 device and an IRC device are coupled to the controller. 159. The controller of claim 158, wherein the device selection menu includes a device selection window, a video sync window, and an audio sync window. 160. The controller of claim 159, wherein the device selection menu further includes a connection sink window. 160. The controller of claim 157, wherein the GUI further comprises a visual recognition system. The controller of claim 160, wherein the visual recognition system includes a plurality of visual recognition states. 166. The controller of claim 161, wherein the plurality of visual recognition states include a disabled state, a state that is a current device, and a state where an icon is selected. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 163. The controller of claim 162, including status, and status where the icon is not selected / current device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether a menu-related action is a menu display action, a menu navigate action, or a menu device action; and coupled to the first and second modules. 153. The controller of claim 153, further comprising a third module for determining which device connection to make and instructing the plurality of input device controllers which device action to take. 147. The controller of claim 146, further comprising a user command input device operably coupled to the input receiver. 170. The controller according to claim 166, wherein the input device is a remote control. 168. The controller of claim 167, wherein the remote control emits an IR signal. 168. The controller of claim 168, wherein the input receiver includes an IR signal detector coupled to the control module. 147. The controller of claim 146, further comprising a decoder coupled to the input command receiver and the control module. 170. The controller of claim 169, further comprising an amplifier coupled to the IR signal detector. 168. The controller of claim 167, wherein the remote control emits an RF signal. 147. The controller of claim 146, wherein the input receiver includes a USB port. 149. The controller of claim 146, wherein the input receiver comprises a speech recognition system. 147. The controller of claim 146, wherein the input receiver comprises an internet connection. Display screen,
A circuit coupled to the screen,
An input coupled to the circuit and adapted to receive a user input command;
Audio-video comprising an output coupled to the circuit and a context-sensitive control system operating on the circuit, having a unified user interface and translating user input commands into messages suitable for the device and for driving peripheral devices (AV) system. 177. The AV system according to claim 176, which is a digital television. 177. The AV system of claim 176, further comprising a downconverter adapted to convert the digital original signal to an analog signal. 177. The AV system of claim 176, further comprising a plurality of internal audio / video (AV) devices coupled to the control system. 180. The AV system of claim 179, wherein the plurality of internal AV devices include an original signal tuner. 177. The AV system of claim 176, wherein the control system includes a user interface (UI) module that translates user input commands. The control system further comprises first and second peripheral device control modules coupled to the UI module for converting translated user input commands into output messages suitable for the device and for driving the peripheral device. 181. The AV system according to 181. 183. The AV system of claim 182, wherein the control system further comprises an internal device control module that converts the translated user input command into a message suitable for the device and that drives an internal AV device. 184. The AV system of claim 181, wherein the user interface is displayable on the screen and includes a graphical user interface (GUI) coupled to the UI module. 184. The AV system of claim 184, wherein the GUI includes a device selection menu including a plurality of icons corresponding to a plurality of internal peripheral devices to control. 185. The AV system according to claim 185, wherein the device selection menu includes a device selection window, a video sync window, and an audio sync window. 189. The AV system according to claim 186, wherein the device selection menu further includes a connection sync window. 185. The AV system of claim 185, wherein the GUI further comprises a visual recognition system. 190. The AV system of claim 188, wherein the visual recognition system includes a plurality of visual recognition states. 190. The AV system of claim 189, wherein the plurality of visual recognition states include a disabled state, a state that is a current device, and a state where an icon is selected. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 189. The AV system of claim 189, including status, and status where the icon is not selected / current device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether a menu-related action is a menu display action, a menu navigate action, or a menu device action; and coupled to the first and second modules. 183. The AV system of claim 182, further comprising a third module for determining which device connection to make and instructing the first and second peripheral device control modules which device action to take. 177. The AV system of claim 176, further comprising a user command input device operably coupled to the input. The AV system according to claim 193, wherein the input device is a remote controller. 199. The AV system according to claim 194, wherein the remote controller emits an IR signal. The AV system of claim 195, further comprising an IR signal detector coupled to the circuit board. 177. The AV system of claim 176, further comprising a decoder coupled to the input and the circuit. 199. The AV system according to claim 194, wherein the remote control transmits an RF signal. 177. The AV system of claim 176, wherein said input is a USB port. 177. The AV system of claim 176, wherein said input comprises a speech recognition system. 177. The AV system of claim 176, wherein said input comprises an Internet connection. A network controller comprising a plurality of devices, wherein the plurality of devices communicate with the controller using various protocols, and the controller includes:
Input command receiver,
Driving the network device, including a plurality of outputs and a context-sensitive control system and a unified user interface coupled to the input command receiver and the plurality of outputs for controlling a network device, the user input commands being suitable for the device A controller with a control module that translates into output messages. The controller of claim 202, further comprising a main display unit coupled to the control module. 203. The controller of claim 203, wherein said main display unit comprises a television. 202. The controller of claim 202, further comprising a downconverter adapted to convert the digital raw signal to an analog signal. The controller of claim 204, wherein the television is a digital television. 203. The controller of claim 203, wherein the main display unit includes a slave monitor. 202. The controller of claim 202, wherein the control module includes a user interface (UI) module that translates user input commands. The control module further comprises a plurality of network device controllers coupled to the UI module and adapted to translate translated user input commands into output messages suitable for the device and for driving the network device. Clause 210. The controller according to clause 208. 202. The controller of claim 202, wherein the user interface includes a graphical user interface (GUI) coupled to the control module and displayable on a screen coupled to the controller. 210. The controller of claim 210, wherein the GUI includes a device selection menu including a plurality of icons corresponding to a device to control. The controller of claim 211, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. The controller of claim 212, wherein the device selection menu further comprises a connection sink window. 210. The controller of claim 210, wherein the GUI further comprises a visual recognition system. The controller of claim 214, wherein the visual recognition system includes a plurality of visual recognition states. 215. The controller of claim 215, wherein the plurality of visual recognition states include a disabled state, a state that is a current device, and a state where an icon is selected. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 225. The controller of claim 215, including status and status where the icon is not selected / current device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 210. The controller of claim 208, further comprising a third module for determining which device connection to make and instructing the network device controller what device action to take. 202. The controller of claim 202, further comprising a user command input device operably coupled to the input receiver. 220. The controller according to claim 219, wherein the input device is a remote controller. 220. The controller of claim 220, wherein the remote control emits an IR signal. 223. The controller of claim 221, wherein the input receiver includes an IR signal detector coupled to the control module. 202. The controller of claim 202, further comprising a decoder coupled to the IR signal detector and the control module. 223. The controller of claim 222, further comprising an amplifier coupled to said IR signal detector. 220. The controller of claim 220, wherein the remote control emits an RF signal. 202. The controller of claim 202, wherein the input receiver includes a USB port. The controller of claim 202, wherein the input receiver comprises a speech recognition system. 202. The controller of claim 202, wherein the input receiver includes an internet connection. A control system for controlling a 1394 device and an IRC device in a system including a combination of a 1394 device and an IR control (IRC) device,
A control system comprising a user interface (UI) module for translating user input commands into device control instructions, and a device control module for translating the device control instructions into messages suitable for the device and for driving 1394 and IRC devices. The UI module includes:
A first module capable of determining the current system state as well as whether the user input command includes a menu related action or a direct device action;
A second module capable of determining whether the menu-related action is a menu display action, a menu navigate action, or a menu device action; determining a device connection to be made; 229. The control system of claim 229, comprising a third module that can be converted into control instructions. 230. The control system of claim 230, wherein the second module includes a graphical user interface (GUI) displayable on a main display screen coupled to the control system. 230. The control system of claim 231, wherein the GUI includes a device selection menu including a plurality of icons corresponding to 1394 and IR devices coupled to the control system. 233. The control system according to claim 232, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. 233. The control system of claim 233, wherein the device selection menu further comprises a connection sink window. 233. The control system of claim 232, wherein the GUI further comprises a visual recognition system. 235. The control system of claim 235, wherein the visual recognition system includes a plurality of visual recognition states. 237. The control system of claim 236, wherein the plurality of visual recognition states include a state in which an icon is selected, a state of a current device, and a state of a disabled device. 238. The control system of claim 237, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states. The plurality of visual recognition states include a disabled device state, an icon selected / current device state, an icon selected / non-current device state, and an icon not selected / current. 237. The control system of claim 236, comprising: a status that is not a device of the device and a status that the icon is not selected / current device. 239. The control system of claim 239, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states when combined or individually presented. 230. The control system of claim 230, wherein the third module includes a database including a list of devices coupled to the control system. 243. The control system of claim 241, wherein said database includes a list of device connections. 243. The control of claim 242, wherein the database includes device objects including device identification, device type, I / O characteristics, and device control information corresponding to each device in a list of devices coupled to the control system. system. The control system of claim 243, wherein the device object further includes interface information of a device control module. 252. The control system of claim 244, wherein the database includes a 1394 subunit device object associated with each 1394 device object. 245. The control system of claim 245, wherein the database includes a device interconnect object corresponding to each connection port of each device listed in the list of devices coupled to the control system. 246. The control system of claim 246, wherein the information stored in the device interconnect object includes a port number, content, direction, and type. A control module for a control system controlling a 1394 device and an IRC device in a system including a combination of a 1394 device and an IR control (IRC) device, the control module comprising:
A first module capable of determining the current system state as well as whether the user input command includes a menu related action or a direct device action;
A second module capable of determining whether the menu-related action is a menu display action, a menu navigate action, or a menu device action; determining a device connection to be made; A control module comprising a third module that can be converted into a control command. 249. The control module of claim 248, wherein the second module includes a graphical user interface (GUI) that can be displayed on a display screen. 249. The control module of claim 249, wherein the GUI includes a device selection menu including a plurality of icons corresponding to a 1394 device and an IR device when the device is coupled to the control system. The control module according to claim 250, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. The control module of claim 251, wherein the device selection menu further includes a connection sink window. 252. The control module of claim 252, wherein the GUI further comprises a visual recognition system. 253. The control module of claim 253, wherein the visual recognition system includes a plurality of visual recognition states. 260. The control module of claim 254, wherein the plurality of visual recognition states include a state where an icon is selected, a state where the icon is the current device, and a state where the icon is disabled. 255. The control module of claim 255, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 256. The control module of claim 256, including status and status where the icon is not selected / current device. 258. The control module of claim 257, comprising primary, secondary, and tertiary visual indicators that correspond to the plurality of visual recognition states when combined or individually presented. 249. The control module of claim 248, wherein the third module includes a database containing a list of devices coupled to the control module. 260. The control module of claim 259, wherein the database includes a list of device connections. 260. The database of claim 260, wherein the database includes device objects including device identification, device type, device I / O characteristics, and device control information corresponding to each device in the list of devices coupled to the control module. Control module. 265. The control module of claim 261, wherein the database includes a 1394 subunit device object associated with each 1394 device object. 271. The control module of claim 262, wherein the database includes device interconnect objects corresponding to each connection port of each device listed in the list of devices coupled to the control module. 263. The control module of claim 263, wherein the information stored in the device interconnect object includes a port number, content, direction, and type. A network control system including a plurality of devices,
Unified user interface,
A control system coupled to the user interface and comprising a context-dependent translation module for translating a user input command into a device control command, and a device control module for translating the device control command into a message for driving a device to be controlled, which is suitable for the device. . The translation module,
A first module capable of determining the current system state as well as whether the user input command includes a menu related action or a direct device action;
A second module capable of determining whether the menu-related action is a menu display action, a menu navigate action, or a menu device action; determining a device connection to be made; 265. The control system according to claim 265, comprising a third module that can be converted into control instructions. 275. The control system of claim 266, wherein the user interface includes a graphical user interface (GUI) displayable on a main display screen coupled to the control system. 269. The control system of claim 267, wherein the GUI includes a device selection menu including a plurality of icons corresponding to the device to be controlled. 269. The control system of claim 268, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. 269. The control system of claim 269, wherein the device selection menu further includes a connection sink window. 280. The control system of claim 270, wherein the GUI further comprises a visual recognition system. 273. The control system of claim 271, wherein the visual recognition system includes a plurality of visual recognition states. 272. The control system of claim 272, wherein the plurality of visual recognition states include an icon selected state, a current device state, and a disabled state. 273. The control system of claim 273, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 273. The control system of claim 272, including status, and status where the icon is not selected / current device. 289. The control system of claim 275, comprising primary, secondary, and tertiary visual indicators that correspond to the plurality of visual recognition states when combined or individually presented. 269. The control system of claim 266, wherein the third module includes a database including a list of devices coupled to the control system. 280. The control system of claim 277, wherein said database includes a list of device connections. 280. The control of claim 278, wherein the database includes device objects including device identification, device type, I / O characteristics, and device control information corresponding to each device in a list of devices coupled to the control system. system. 280. The control system according to claim 279, wherein the device object further includes interface information of a device control module. 280. The control system of claim 280, wherein the database includes a device interconnect object corresponding to each connection port of each device listed in a list of devices coupled to the control system. 285. The control system of claim 281, wherein the information stored in the device interconnect object includes a port number, content, direction, and type. A control module for a control system that controls a network including a plurality of devices,
A first module capable of determining the current system state as well as whether the user input command includes a menu related action or a direct device action;
A second module capable of determining whether the menu-related action is a menu display action, a menu navigate action, or a menu device action; determining a device connection to be made; A control module comprising a third module that can be converted into a control command. 285. The control module of claim 283, wherein the second module includes a graphical user interface (GUI) that can be displayed on a display screen. 285. The control module of claim 284, wherein the GUI includes a device selection menu including a plurality of icons corresponding to a device to control. 289. The control module of claim 285, wherein the device selection menu includes a device selection window, a first sink device window, and a second sink device window. 289. The control module of claim 286, wherein the device selection menu further comprises a connection sink window. 288. The control module of claim 287, wherein the GUI further comprises a visual recognition system. 288. The control module of claim 288, wherein the visual recognition system includes a plurality of visual recognition states. 289. The control module of claim 289, wherein the plurality of visual recognition states include an icon selected state, a current device state, and a disabled state. 290. The control module of claim 290, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 289. The control module of claim 289, comprising states and states where the icon is not selected / current device. 305. The control module of claim 292, comprising primary, secondary, and tertiary visual indicators that correspond to the plurality of visual recognition states when combined or individually presented. 285. The control module of claim 283, wherein the third module includes a database including a list of devices coupled to the control module. 294. The control module of claim 294, wherein the database includes a list of device connections. 295. The device of claim 295, wherein the database includes device objects, including device identification, device type, device I / O characteristics, and device control information, corresponding to each device in a list of devices coupled to the control module. Control module. 297. The control module of claim 296, wherein the database includes a device interconnect object corresponding to each connection port of each device listed in a list of devices coupled to the control module. 297. The control module of claim 297, wherein the information stored in the device interconnect object includes a port number, content, direction, and type. A graphical user interface (GUI) for a control system that controls a 1394 device and an IRC device in a system including a combination of a 1394 device and an IR control (IRC) device,
A GUI comprising a device selection menu that can be displayed on a screen and includes a plurality of icons corresponding to a 1394 device and an IRC device to be controlled, and a visual recognition system associated with the plurality of icons. 299. The GUI of claim 299, wherein the device selection menu includes a device selection window, a first sink device window, and a first sink device window. The GUI of claim 300, wherein the device selection menu further includes a connection sink window. 302. The GUI of claim 301, wherein the visual recognition system includes a plurality of visual recognition states. 330. The GUI of claim 302, wherein the plurality of visual recognition states include an icon selected state, a current device state, and a disabled state. 305. The GUI of claim 303, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 330. The GUI of claim 302, including a status and a status where the icon is not selected / current device. 305. The GUI of claim 305, comprising primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states when combined or individually presented. A graphical user interface (GUI) for a control system for controlling a network of a plurality of devices, comprising:
A GUI comprising: a device selection menu that can be displayed on a screen and includes a plurality of icons corresponding to a device to be controlled; and a visual recognition system associated with the plurality of icons. 307. The GUI of claim 307, wherein the device selection menu includes a device selection window, a video sync window, and an audio sync window. 309. The GUI of claim 308, wherein the device selection menu further includes a connection sink window. 310. The GUI of claim 309, wherein the visual recognition system includes a plurality of visual recognition states. 310. The GUI of claim 310, wherein the plurality of visual recognition states include an icon selected state, a current device state, and a disabled state. 311. The GUI of claim 311, including primary, secondary, and tertiary visual indicators corresponding to the plurality of visual recognition states. The plurality of visual recognition states are a disabled state, a state where an icon is selected / current device, a state where an icon is selected / not current device, and a state where an icon is not selected / not current device. 312. The GUI of claim 312, including status and status where the icon is not selected / current device. 314. The GUI of claim 313, comprising primary, secondary, and tertiary visual indicators that correspond to the plurality of visual recognition states when combined or individually presented. A method for controlling a network system including a combination of 1394 and IR control (IRC) audio / video input devices and other input devices, comprising:
Receiving a user input command at a central control unit of the network system including a combination of a 1394 input device and an IRC input device, and translating the user input command into an output message suitable for the device that drives the input device. How to control a network system, including: 315. The method of claim 315, further comprising maintaining a list of all input devices, all input device connections, and all I / O ports in the network system in the memory of the central control unit. 315. The method of claim 315, further comprising transmitting the output message to the input device. 315. The method of claim 315, wherein the receiving step further comprises detecting an input command signal from a remote control device. 318. The method of claim 318, further comprising transmitting an input command signal to control all input devices from a single control layer of the remote control device. The step of transmitting the input command signal includes the steps of: transmitting an input command from a first control layer of the remote control device to a first device; and transmitting a second command without switching to a second control layer of the remote control device. 319. The method of claim 319, further comprising transmitting an input command to a device, wherein the first device is an IRC input device or a 1394 input device, and wherein the second device is an IRC 1394 input device. 315. The method of claim 315, further comprising inputting a command from an input device, wherein the same input command is used to drive both a 1394 input device and an IRC input device. 315. The method of claim 315, wherein translating further comprises converting a user input command for the IRC device into a message suitable for the device and including a device specific IR code. 333. The method of claim 322, further comprising converting a user input command for a 1394 device into a message suitable for the device and created by a device control module corresponding to the 1394 device. 315. The method of claim 315, further comprising sending a signal from a source input device to a sink device. 324. The method of claim 324, further comprising performing all necessary device connections and input switching without further user input. 315. The method of claim 315, wherein translating further comprises determining whether the input command is a direct device action event or a menu related event. 327. The method of claim 326, further comprising determining whether the input command is a menu display event, a menu navigation event, or a menu device action event. 327. The method of claim 327, further comprising displaying a device selection menu on a display screen coupled to the central control unit. 328. The method of claim 328, further comprising the step of visually indicating a current system state. 329. The method of claim 329, further comprising the step of visually indicating input source device options. 330. The method of claim 330, further comprising the step of visually indicating audio sink device options. 331. The method of claim 331, further comprising the step of visually indicating which device is the current video sink device. 335. The method of claim 332, further comprising the step of visually indicating which device is a current input device and which device is a current audio sink. 334. The method of claim 333, further comprising the step of visually indicating the presence of a peer-to-peer connection. 334. The method of claim 334, further comprising the step of visually indicating that the device is not available as an input device or an audio sink. 335. The method of claim 335, further comprising the step of visually indicating a navigation location within the device selection menu. 335. The method of claim 328, further comprising representing devices in the system as graphic icons displayed in the device selection menu. 337. The method of claim 337, further comprising displaying a device selection window, a video selection window, and an audio sink window as part of the device selection menu. 339. The method of claim 338, further comprising displaying a connection window. 337. The method of claim 337, further comprising displaying a plurality of visual indicators corresponding to a disabled device, a current source or sink device, and a menu location. The device that is disabled, is the current source or sink device / is the current menu position, is not the current source or sink device / is the current menu position, is the current source or sink device / is the current device 337. The method of claim 337, further comprising displaying a plurality of visual indicators that provide visual recognition that is not a menu location and is not a current source or sink device / not a current menu location. A method for controlling a network of devices, comprising:
Receiving a unified user input command at a central control unit of a network system including a plurality of devices;
Determining the current system state of the network system, and translating a user input command into an output message for driving the plurality of devices suitable for the device based on the stored device data and device interconnectivity data. A method for controlling a network comprising the steps of: 347. The method of claim 342, further comprising maintaining a list of all the plurality of devices, all device connections in the network system, and all I / O ports in the network system in the memory of the central control unit. 347. The method of claim 342, further comprising transmitting the output message to the plurality of devices. 344. The method of claim 342, wherein the receiving step further comprises detecting an input command signal from a remote control device. 345. The method of claim 345, further comprising transmitting an input command signal to control the plurality of devices from a single control layer of the remote control device. Transmitting the input command from the first control layer of the remote control device to the first device of the plurality of devices; and switching the plurality of devices without switching to the second control layer of the remote control device. 347. The method of claim 346, further comprising transmitting an input command for a second device of the first device. 335. The method of claim 342, further comprising inputting a unified command for the plurality of devices from an input device. 343. The method of claim 342, further comprising sending a signal from a source input device to a sink device. 347. The method of claim 349, further comprising the step of making all necessary device connections and input switching without further user input. 347. The method of claim 342, wherein translating further comprises determining whether the input command is a direct device action event or a menu related event. 351. The method of claim 351, further comprising determining whether the input command is a menu display event, a menu navigation event, or a menu device action event. 352. The method of claim 352, further comprising displaying a device selection menu on a display screen coupled to the central control unit. 354. The method of claim 353, further comprising the step of visually indicating a current system state. 354. The method of claim 354, further comprising the step of visually indicating input source device options. 355. The method of claim 355, further comprising the step of visually indicating sink device options. 356. The method of claim 356, further comprising the step of visually indicating which device is the current sink device. 359. The method of claim 357, further comprising the step of visually indicating which device is the current source device. 358. The method of claim 358, further comprising the step of visually indicating the presence of a peer-to-peer connection. 359. The method of claim 358, further comprising the step of visually indicating that the device is unavailable as a source device or a sink device. 360. The method of claim 360, further comprising the step of visually indicating a navigation location within the device selection menu. 354. The method of claim 353, further comprising representing a device in the system as a graphic icon displayed in the device selection menu. 363. The method of claim 362, further comprising displaying a plurality of menu windows. 373. The method of claim 362, further comprising displaying a plurality of visual indicators corresponding to a disabled device, a current source or sink device, and a menu navigation location. The device that is disabled, is the current source or sink device / is the current menu position, is not the current source or sink device / is the current menu position, is the current source or sink device / is the current device 363. The method of claim 362, further comprising displaying a plurality of visual indicators that provide visual recognition that is not a menu position and is not a current source or sink device / not a current menu position. A method of selecting a source device in a network system including a combination of a 1394 and an IR control (IRC) audio / video (AV) input device, the method comprising:
Inputting an input command for displaying a device selection menu on a screen coupled to a central control unit of the network system, wherein the device selection menu includes a plurality of 1394 and IRC AV device combinations in the network system. Inputting, including a screen representation corresponding to an input device, and selecting a screen representation of a first input device, thereby selecting and selecting said input device as a source device. . 369. The method of claim 366, further comprising selecting a function button from a device control menu displayed on the screen, thereby driving and selecting the source device according to the selected function. . 369. The method of claim 366, further comprising navigating within the device selection menu, thereby arriving at a screen representation of the first input device. Further comprising selecting a second input device as a new input source device, the selecting step comprising:
Inputting an input command for displaying the device selection menu on the screen, and selecting a screen representation of a second input device, whereby the second input device is used as a new source device. 369. The method of claim 366, comprising selecting, selecting. 369. The method of claim 369, further comprising selecting a function button from the device control menu displayed on the screen, thereby driving and selecting the new source device according to the selected function. The described method. 369. The method of claim 369, further comprising navigating within the device selection menu, thereby arriving at a screen representation of the second input device. A method for selecting a source device in a network system, comprising:
Inputting a command to display a device selection menu on a screen coupled to a central control unit of the network system, wherein the device selection menu includes a screen representation corresponding to a plurality of input devices in the network system. , Inputting, and selecting a screen representation of the first input device, thereby selecting and selecting the input device as a source device. 374. The method of claim 372, further comprising selecting a function button from a device control menu displayed on the screen, thereby driving and selecting the source device according to the selected function. . 374. The method of claim 372, further comprising navigating within the device selection menu, thereby reaching a screen representation of the first input device. Further comprising selecting a second input device as a new input source device, wherein said selecting comprises:
Inputting an input command for displaying the device selection menu on the screen, and selecting a screen representation of a second input device, whereby the second input device is used as a new source device. 374. The method of claim 373, comprising selecting, selecting. 375. The method of claim 375, further comprising: selecting a function button from the device control menu displayed on the screen, thereby driving and selecting the new source device according to the selected function. The described method. 375. The method of claim 375, further comprising navigating within the device selection menu, thereby arriving at a screen representation of the second input device. A method for selecting and controlling a source device in a network system, comprising:
Inputting, via a unified user interface, a first command that causes a context-dependent control system to select a source device, and inputting a second command that causes the control system to drive the source device via the unified user interface A method that includes the step of entering. Further comprising selecting the second input device as a new source device, wherein the selecting step comprises:
Inputting a third command for selecting a new source device via the user interface, and inputting a fourth command for driving the new source device via the user interface. 390. The method according to clause 378. A method for controlling a network system, comprising:
A device list including a list of all input devices coupled to a central control unit of the network system including a plurality of input devices, a connection port list including a list of all connection ports in the network system, and the input in the network system; A method comprising: creating a device connection list including a list of all connections between a device and said control unit; and maintaining a list of said devices, connection ports and device connections in a memory of said central control unit. 380. The method according to claim 380, wherein said control unit is an AV system. 381. The method of claim 381, wherein the AV system is a television. 383. The method of claim 382, wherein the television is a digital television. 380. The method of claim 380, further comprising creating a device object for each device in the device list. 384. The method of claim 384, further comprising storing the device object in a device object list. 384. The method of claim 384, wherein the device objects include device identification, device type, device I / O characteristics, and device control information. 399. The method of claim 386, wherein the control unit comprises a device control module, and wherein the device object further comprises device control module interface information. 385. The step of creating a device object for each device in the device list further comprises creating a unit-level device object representing the entire device and a subunit-level device object representing a subunit of the device. The method described in. 398. The method of claim 388, further comprising associating the subunit-level device object with a corresponding unit-level device object. 384. The method of claim 384, wherein creating the device object comprises discovering a device coupled to the control unit and creating a device object. Creating the unit-level and sub-level device objects includes discovering a device coupled to the control unit; and scanning the device object list to find a unit-level device object for the discovered device. 398. The method of claim 388, comprising the step of: 403. The method of claim 391, further comprising creating unit-level and sub-unit-level device objects for the discovered device if no unit-level device objects are present in the device object list. 403. The method of claim 391, further comprising creating a sub-unit level device object of the discovered device corresponding to the unit level device object present in the device object list. 394. The method of claim 384, further comprising creating a device interconnect object for each connection port in the connection port list. 394. The method of claim 394, further comprising storing the device interconnect object in a device interconnect list. 398. The method of claim 395, wherein information stored in the device interconnect object includes a port number, content, direction, and type. Receiving a unified user input command at the central control unit;
Determining the current system state of the network system and, based on the stored device data and device interconnectivity data, converting a user input command to an output message for driving the plurality of input devices suitable for the device. 398. The method of claim 396, further comprising the step of translating. 397. The method of claim 397, further comprising transmitting the output message to the plurality of input devices. 397. The method of claim 397, wherein the receiving step further comprises detecting an input command signal from a remote control device. 399. The method of claim 399, further comprising transmitting an input command signal to control the plurality of input devices from a single control layer of the remote control device. The transmitting includes transmitting an input command to a first of the plurality of input devices from a first control layer of the remote control device, and switching the control command to a second control layer of the remote control device. The method of claim 400, further comprising transmitting an input command for a second device of the plurality of devices. 397. The method of claim 397, further comprising inputting a unified command for the plurality of input devices from an input device. 397. The method of claim 397, further comprising sending a signal from a source input device to a sink device. 403. The method of claim 403, further comprising performing all necessary device connections and input switching without further user input. 403. The method of claim 403, wherein translating further comprises determining whether the input command is a direct device action event or a menu related event. 405. The method of claim 405, further comprising determining whether the input command is a menu display event, a menu navigation event, or a menu device action event. 407. The method of claim 406, further comprising displaying a device selection menu on a display screen coupled to the central control unit. Inputting a command to display a device selection menu on a screen coupled to the central control unit, the device selection menu including a screen representation corresponding to the plurality of input devices, and inputting; 398. The method of claim 397, further comprising selecting a screen representation of the first input device, thereby selecting and selecting the input device as a source device. 405. The method of claim 408, further comprising selecting a function button from a device control menu displayed on the screen, thereby driving and selecting the source device according to the selected function. . 405. The method of claim 408, further comprising navigating within the device selection menu, thereby reaching a screen representation of the first input device. Further comprising selecting a second input device as a new input source device, the selecting step comprising:
Inputting an input command for displaying the device selection menu on the screen, and selecting a screen representation of a second input device, whereby the second input device is used as a new source device. 409. The method of claim 409, comprising selecting, selecting. 411. The method of claim 411, further comprising: selecting a function button from the device control menu displayed on the screen, thereby driving and selecting the new source device according to the selected function. The described method. 411. The method of claim 411, further comprising navigating within the device selection menu, thereby arriving at a screen representation of the second input device. 380. The method of claim 380, wherein the plurality of input devices comprises a combination of 1394 and IR controlled audio / video devices. Display screen,
A context-sensitive controller coupled to the screen and translating user input commands into messages for driving peripheral devices suitable for the device;
An IR signal receiver coupled to the controller and adapted to receive a user input command;
An audio-video (AV) system comprising an IR emitter coupled to the controller, and a gate coupled to the emitter, the controller and the IR signal receiver. 415. The AV system according to claim 415, which is a digital television. 415. The AV system of claim 415, further comprising a downconverter adapted to convert the digital original signal to an analog signal. 415. The AV system of claim 415, further comprising a plurality of internal audio / video (AV) devices coupled to the controller. 415. The AV of claim 415, wherein the IR receiver includes first and second IR detectors, wherein the first detector is coupled to the controller, and wherein the second detector is coupled to the gate. system. 415. The AV system of claim 415, wherein the IR emitter includes first and second IR repeaters, wherein the first repeater is coupled to the controller, and wherein the second repeater is coupled to the gate. 415. The AV system of claim 415, wherein the controller includes a user interface (UI) module that translates user input commands. 421. The controller of claim 421, wherein the controller further comprises first and second peripheral device control modules coupled to the UI module for converting translated user input commands into output messages suitable for the device and for driving the peripheral device. 2. The AV system according to 1. 443. The AV system of claim 422, wherein the first control module communicates an output message driving an IR control (IRC) peripheral device to the IR emitter for transmission to the IRC device. 423. The AV system of claim 423, wherein the first control module closes the gate until transmission of an output message to the IRC device is completed. 423. The AV system of claim 423, wherein the control system further comprises an internal device control module that converts the translated user input command into a message suitable for the device and that drives an internal AV device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 423. The AV system of claim 423, further comprising a third module for determining which device connection to make and instructing the first and second peripheral device control modules which device action to take. A network controller comprising a plurality of devices, wherein the plurality of devices communicate with the controller using various protocols, and the controller includes:
IR signal,
An IR transmitter and a control module coupled to the IR signal receiver and the IR transmitter, the control module including a context sensitive control system and translating a user input command into an output message suitable for the device and driving the network device. controller. 428. The controller of claim 427, wherein the controller is a television. 427. The controller of claim 427, further comprising a downconverter adapted to convert a digital raw signal to an analog signal. 427. The controller of claim 427, further comprising a plurality of internal audio / video (AV) devices coupled to the control module. 472. The IR receiver of claim 427, wherein the IR receiver includes first and second IR detectors, wherein the first detector is coupled to the control module, and wherein the second detector is coupled to the gate. controller. 427. The controller of claim 427, wherein the IR emitter includes first and second IR repeaters, wherein the first repeater is coupled to the control module, and wherein the second repeater is coupled to the gate. 427. The controller of claim 427, wherein the control module includes a user interface (UI) module that translates user input commands. The control module is a first and a second peripheral device control module coupled to the UI module, the module converting translated user input commands into output messages suitable for the device and for driving the peripheral device; 443. The controller of claim 433, further comprising first and second peripheral device control modules. 435. The controller of claim 434, wherein the first peripheral device control module communicates an output message driving an IR control (IRC) peripheral device to the IR emitter for transmission to the IRC device. 435. The controller of claim 435, wherein the first peripheral device control module is configured to close the gate until transmission of an output message to the IRC device is completed. 435. The controller of claim 434, wherein the control module further comprises an internal device control module that translates translated user input commands into a device appropriate message for driving an internal AV device. The UI module includes:
A first module for determining the current system state and whether the input command includes a menu-related action or a direct device action;
A second module coupled to the first module for determining whether the menu-related action is a menu display action, a menu navigation action, or a menu device action; and coupled to the first and second modules. 435. The controller of claim 434, further comprising a third module for determining which device connection to make and instructing the first and second peripheral device control modules what device action to take. A method for controlling a network system including a combination of 1394 and IR controlled audio / video input devices and other input devices, comprising:
Receiving a user input command at a central control unit of a network system, the control unit including an IR detector coupled to a translation module and a gate, wherein the translation module and the gate are coupled to each other and to an IR transmitter; Receiving, wherein the network system comprises a combination of a 1394 input device and an IR control (IRC) input device;
Translating a user input command into an output message suitable for the device that drives the IRC input device;
A method comprising: transmitting an output message suitable for a device to said IRC device; and keeping said gate closed until said transmitting step is completed. 439. The method of claim 439, further comprising maintaining a list of all input devices, all input device connections, and all I / O ports in the central control unit memory in the network system. 439. The method of claim 439, wherein the receiving step further comprises detecting an input command signal from a remote control device. 439. The method of claim 439, wherein the translating step further comprises translating a user input command for an IR control device into a message suitable for the device and including a device specific IR code. 443. The method of claim 442, further comprising converting user input commands for the 1394 device into messages suitable for the device and created by a device control module corresponding to the 1394 device. 443. The method of claim 443, further comprising sending a signal from a source input device to a sink device. 445. The method of claim 444, further comprising the step of performing all necessary device connections and input switching without further user input. 439. The method of claim 439, wherein translating further comprises determining whether the input command is a direct device action event or a menu related event. The method of claim 446, further comprising determining whether the input command is a menu display event, a menu navigation event, or a menu device action event. 460. The method of claim 447, further comprising displaying a device selection menu on a display screen coupled to the central control unit. 449. The method of claim 448, further comprising the step of visually indicating a current system state. 449. The method of claim 449, further comprising the step of visually indicating input source device options. The method of claim 450, further comprising the step of visually indicating audio sink device options. The method of claim 451, further comprising the step of visually indicating which device is the current video sink device. 453. The method of claim 452, further comprising the step of visually indicating which device is the current input device and audio sink. 453. The method of claim 453, further comprising the step of visually indicating the presence of a peer-to-peer connection. 453. The method of claim 453, further comprising the step of visually indicating that the device is unavailable as an input device or audio sink. 455. The method of claim 455, further comprising visually indicating a navigation location within the device selection menu. 448. The method of claim 448, further comprising representing devices in the system as graphic icons displayed in the device selection menu. 457. The method of claim 457, further comprising displaying a device selection window, a video selection window, and an audio sink window as part of the device selection menu. 458. The method of claim 458, further comprising displaying a connection window. 457. The method of claim 457, further comprising displaying a plurality of visual indicators corresponding to a disabled device, a current source or sink device, and a menu location. A method for controlling a network of devices, comprising:
Receiving a unified user input command at a central control unit of a network system, the control unit including an IR detector coupled to a translation module and a gate, wherein the translation module and the gate communicate with each other and the IR transmission; Receiving, wherein the network system includes a combination of an IR control (IRC) input device and a non-IRC input device.
Determining a current system state of the network system;
Translating a user input command into an output message suitable for the device and driving the input device based on the stored device data and the device interconnectivity data; and outputting the device appropriate output message to the IRC device. Transmitting the output message to the IRC device and keeping the gate closed until the step of transmitting is completed.

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